Difference between revisions of "Team:USTC/Notebook"

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{{USTC}}
 
{{USTC}}
 
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        <a class="dropdown-button btn white-text" data-beloworigin="true"data-hover="true" href="#!" data-activates="Nav-dropdown" >NOTEBOOK<i class="material-icons">arrow_drop_down</i></a>
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        <a href="#Protocols" class="blue-text active waves-effect waves-light">Protocols</a>
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        <a href="#Daily-Notes-Stage-1" class="blue-text waves-effect waves-light">Daily Notes-Stage 1</a>
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   <li><a href="https://2015.igem.org/Team:USTC" class="waves-effect waves-light">Home</a></li>
 
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            <h4 id="synthetic-biology" class="scrollspy">Synthetic Biology</h4>
 +
            <p><strong>Genome Extraction</strong></p>
 +
            <p><em>Material</em>
 +
              <br>Items (Volume)
 +
              <br>Buffer GA (200ul)
 +
              <br>Proteinase K solution (20ul)
 +
              <br>Buffer GB (220ul)
 +
              <br>Ethanol (220ul)
 +
              <br>Buffer GD (500ul)
 +
              <br>Rinse PW (600ul)
 +
              <br>Elution Buffer TE (100ul)</p>
 +
            <p><em>Extraction steps:</em></p>
 +
            <ol>
 +
              <li>
 +
                <p>Absolute ethanol before use in buffer and rinse GD PW, adding volume refer to the label on the bottle.</p>
 +
              </li>
 +
              <li>
 +
                <p>Take inoculum 1-5 ml, 10,000 rpm (~ 11,500 × g) was centrifuged 1 min, the supernatant net absorption as possible.</p>
 +
              </li>
 +
              <li>
 +
                <p>The cell pellet is added to 200 μl buffer GA, shaking to complete the cell suspension.</p>
 +
              </li>
 +
              <li>
 +
                <p>The tube is added to 20 μl Proteinase K solution, mixed evenly.</p>
 +
              </li>
 +
              <li>
 +
                <p>Add 220 μl buffer GB, oscillation 15 sec, 70 ℃ and placed 10 min, strain the solution clear, brief centrifugation to remove the tube drops on the inner wall .</p>
 +
              </li>
 +
              <li>
 +
                <p>Add 220 μl ethanol, mix thoroughly shaken 15 sec, flocculent precipitate may occur at this time, a brief centrifugation to remove the tube drops on the inner wall .</p>
 +
              </li>
 +
              <li>
 +
                <p>Previous resulting solution and the flocculent precipitate are added into a adsorption column CB3(adsorption column into the collection tube), 12,000 rpm centrifugation 30 sec, discard the liquid, set the adsorption column CB3 into the collection tube.</p>
 +
              </li>
 +
              <li>
 +
                <p>500 μl buffer GD was added to CB3 adsorption column(check whether ethanol has been added before use), 12,000 rpm (~ 13,400 × g) centrifugation 30 sec, discard the liquid, set the adsorption column CB3 into the collection tube.</p>
 +
              </li>
 +
              <li>
 +
                <p>600 μl rinse PW was added to CB3 adsorption column(check whether ethanol has been added before use), 12,000 rpm(~ 13,400 × g) centrifugation 30 sec, discard the liquid, set the CB3 adsorption column into the collection tube.</p>
 +
              </li>
 +
              <li>
 +
                <p>Repeat steps 8.</p>
 +
              </li>
 +
              <li>
 +
                <p>Place the column back into the collection tube CB3, 12,000 rpm (~ 13,400 × g) centrifugation 2 min, discard the waste.Place the adsorption column CB3 at room temperature for several minutes to completely dry absorbent material.</p>
 +
              </li>
 +
            </ol>
 +
            <ol>
 +
              <li>
 +
                <p>Put the CB3 adsorption column into a clean centrifuge tube and drop 50-200 μl elution buffer TE to the middle of the adsorbed film vacant. Put at room temperature 2-5 min, 12,000 rpm (~ 13,400 × g) centrifugation 2 min, collect the solution in a centrifuge tube.</p>
 +
              </li>
 +
              <li>
 +
                <p>Detect the concentration of DNA.</p>
 +
              </li>
 +
            </ol>
 +
            <p><strong>Plasmid Extraction</strong>
 +
              <br>Preparation</p>
 +
            <ol>
 +
              <li>Check out whether RNaseA has been added in Buffer P1. </li>
 +
              <li>Check out whether ethyl alcohol has been added in Wash Solution </li>
 +
              <li>Check out whether sediment exist in Buffer P2 and P2.
 +
                <br>Procedure</li>
 +
              <li>Absorb 1.5 to 5 mL bacteria solution in to EP tubes, centrifuge them at 8,000xg 2 mins and then discard the culture medium. </li>
 +
              <li>Add 250 ul Buffer P1 into sediment, and use spearhead to make bacteria suspended. </li>
 +
              <li>Add 250 ul Buffer P2, and overturn the EP tubes 5 to 10 times immediately and tenderly. Stand tubes about 2 to 4 mins. </li>
 +
              <li>Add 350 ul Buffer P3 and overturn the EP tubes 5 to 10 times again immediately and tenderly. </li>
 +
              <li>Centrifuge tubes at 12,000xg about 5 to 10 mins. </li>
 +
              <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 8,000xg about 30 sec and then discard the liquid in the collecting pipe. </li>
 +
              <li>optional:Add 500 ul Buffer DW1 and centrifuge them at 9,000xg about 30 sec. Then discard the liquid in the collecting pipe. </li>
 +
              <li>Add 500 ul Wash Solution, centrifuge them at 9,000xg about 30 sec and discard the liquid in the collecting pipe. </li>
 +
              <li>Do the step 8 again. </li>
 +
              <li>Centrifuge the empty columns at 9,000xg about 1 min. </li>
 +
              <li>Put the columns in clean 1.5mL EP tubes, add 50 to 100 ul Elution Buffer on the absorption film, stand 1 min and centrifuge about 1 min at 9,000xg. </li>
 +
              <li>Keep the DNA solution for further work.
 +
                <br>The Protocol is based on SanPrep Column Type DNA Plasmid Extraction Kit.</li>
 +
            </ol>
 +
            <p><strong>PCR System Preparation and Conditions Setting</strong>
 +
              <br>PCR system(set 50ul system as an example):
 +
              <br>The amount of substance of premier is written on the EP tubes. Calculating the volume of 1XTE required for 10uM primer solution is required before the system preparation.</p>
 +
            <ol>
 +
              <li>Template DNA xul as required. </li>
 +
              <li>Forward Primer(10 uM) about 1 to 2 ul. The final concentration will be 0.2 to 0.4 uM. </li>
 +
              <li>Reverse Primer(10 uM) about 1 to 2 ul. The final concentration will be 0.2 to 0.4 uM. </li>
 +
              <li>5xTransStart FastPfu Fly Buffer 10 ul. </li>
 +
              <li>2.5 mM dNTPs 5 uM. The final concentration will be 0.25 mM. </li>
 +
              <li>TransStart FastPfu Fly DNA Polymerase 1 ul. </li>
 +
              <li>Double distilled water added to 50 ul.
 +
                <br>Reaction conditions </li>
 +
              <li>Calculate the Tm Value. If the complementary strip is smaller than 20 bp, Tm=4X(A+T)+2X(C+G), and the annealing temperature is Tm-5 degree centigrade. If not, use software to figure out the exact Tm value.(Also Tm value exist in report) </li>
 +
              <li>PCR cycle: </li>
 +
              <li>1 cycle of 95 degree centigrade about 2 min for pre-degeneration; </li>
 +
              <li>30 to 35 cycles of 95 degree centigrade about 10 sec, Tm-5 degree centigrade about 20 sec and 72 degree centigrade 1kb per min; </li>
 +
              <li>1 cycle of 75 degree centigrade about 5 mins and stay the device in 4 degree centigrade.
 +
                <br>The protocol is based on TransStart FastPfu Fly DNA Polymerase.</li>
 +
            </ol>
 +
            <p><strong>PCR Production Extraction</strong>
 +
              <br>Prepation</p>
 +
            <ol>
 +
              <li>Check out whether ethyl alcohol has been added into Wash Solution. </li>
 +
              <li>Check out whether sediment exist in Buffer B3. </li>
 +
              <li>Check out whether isopropanol has been added into Buffer B3.
 +
                <br>Procedure</li>
 +
              <li>Add Buffer B3 3 times volume of PCR system solution and incorporated thoroughly. </li>
 +
              <li>Centrifuge them at 8,000xg about 30 sec and drain the liquid in the collecting pipe. </li>
 +
              <li>Add 500 ul Wash Solution at 9,000xg about 30 sec and drain the liquid in the collecting pipe. </li>
 +
              <li>Do The step 3 again. </li>
 +
              <li>Centrifuge the empty pipes at 9,000Xg about 1 min. </li>
 +
              <li>Put the absorption column in some clean 1.5 mL EP tubes, add 15 to 40 ul Elution Buffer, stand for 1 min and centrifuge them at 9,000xg about 1min. </li>
 +
              <li>Keep the DNA solution.</li>
 +
            </ol>
 +
            <p><strong>Restriction Enzymes Analysis<br>Protocol</strong>
 +
              <br>20ul system as following:</p>
 +
            <ol>
 +
              <li>2ul plasmid DNA sample; </li>
 +
              <li>1ul restriction enzyme(both 1 ul for double digestion); </li>
 +
              <li>2ul 10X green buffer; </li>
 +
              <li>double distilled water added to 20 ul.
 +
                <br>Timetable:react the whole system at 37 degree centigrade about 2 hours and then inactivate the enzymes at 60 degree centigrade about 20 mins.</li>
 +
            </ol>
 +
            <p><strong>DNA Gel Electrophoresis</strong>
 +
              <br>Standard 1% agarose gel
 +
              <br>(Generally, 0.7%~2% agarose gel is widely used in lab)</p>
 +
            <ol>
 +
              <li>Measure out 1g agarose in scale, and then put the sample into conical flask. </li>
 +
              <li>Add 100mL 1XTAE into conical flask, shaking evenly.
 +
                <br>(about 1xTAE: dilute the 50x TAE to 1x TAE: add 10mL 50x TAE and 490 mL double distilled water to form as a system for further use)</li>
 +
              <li>Plastic wrap can be used to pack the bottleneck. </li>
 +
              <li>Use microwave oven to heat the solution about 5mins until the agarose is all dissolved and the solution is boiling and clear. It would be better if we shake the flask again after heating 2 mins.(CAUTION: HOT! Please use wool gloves when picking and placing flask.) </li>
 +
              <li>Let the gel cool down about 2 mins. </li>
 +
              <li>Pour the gel into gel tray with the appropriate comb inserted in the side of tray and wait till the gel solified(It may costs about 10 mins). Then remove the comb </li>
 +
              <li>Put the gel into gel box with the 1XTAE just immerse the gel exactly. Please let passages stay towards the negative pole(Often black). </li>
 +
              <li>Carefully add samples with 6X loading buffer and marker into passages. Dosage is based on the depth and width of passages. </li>
 +
              <li>Set electrophoresis conditions: 90V 600mA and 30mins and then turn on the power. </li>
 +
              <li>Disconnect the electrodes. </li>
 +
              <li>Utilize the devices that contains UV light to observe the gel and analyze the result. </li>
 +
              <li>Save the result in the computer for further use.</li>
 +
            </ol>
 +
            <p><strong>Gel Extraction</strong>
 +
              <br>Preparation:</p>
 +
            <ol>
 +
              <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
              <li>Check out whether Buffer B2 has sediment. </li>
 +
              <li>Adjust the thermostat water bath at 50 degree centigrade.
 +
                <br>Procedure:</li>
 +
              <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
              <li>Measure out the weight of tubes of gel. </li>
 +
              <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
              <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
              <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
              <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
              <li>Do the step 5 again. </li>
 +
              <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
              <li>Open the columns and air them about 10 mins. </li>
 +
              <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
              <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
 +
                <br>The protocol is based on SanPerp Column Type DNA Gel Extraction Kit.</li>
 +
            </ol>
 +
            <p><strong>Preparation of Competent Cell<br>Procedure</strong></p>
 +
            <ol>
 +
              <li>Pick out the simple colony(DH5α) and cultivate bacteria in 2 to 3 mL LB media at 37 degree centigrade about 12 to 16 hours with shocking. </li>
 +
              <li>Take 0.05mL nutrient solution into 50 mL media and cultivate bacteria at 37 degree centigrade about 2 to 3 hours with shocking till the OD550 reaches 0.2 to 0.4. </li>
 +
              <li>Absorb 1.5mL nutrient solution into EP tubes with ice-bath about 10 mins. </li>
 +
              <li>Centrifuge the tubes at 4000xg at 4 degree centigrade about 10mins and discard the supernatant liquid. </li>
 +
              <li>Utilize 0.5 to 1 mL 0.1M calcium chloride with 15% glycerol to suspend bacteria.(<em>ATTENTION:USE SPEARHEAD TO SUSPEND BACTERIA TENDERLY INSTEAD OF VIBRATOR </em>) </li>
 +
              <li>Centrifuge the tubes at 4000xg at 4 degree centigrade about 8 mins and discard the supernatant liquid. </li>
 +
              <li>Utilize 100 ul 0.1M calcium chloride with 15% glycerol to suspend bacteria and then ready for transformation quickly or restore at -70 degree centigrade.(WITH ATTENTION AGAIN)
 +
                <br>TIPS: EXPERIENCE SAYS MODERATE MAGNESIUM ION HELPS DEVELOPMENT OF COMPETENT CELL.</li>
 +
            </ol>
 +
            <p><strong>Transformation</strong>
 +
              <br>NOTE:Generally, competent bacteria are restrored in -70 degree centrigrade environment.
 +
              <br>Procedure</p>
 +
            <ol>
 +
              <li>Take the competent bacteria from refrigerator and incubate them into ice about 5 mins until it is dissolved </li>
 +
              <li>Absorb 100pg to 10 ng plasmid(normally 1 to 2 uL, DO NOT add more than 5% volumn of bacteria solution) and mix it with bacteria solution thoroughly.
 +
                <br>ATTENTION: Please operate this step tenderly!!!</li>
 +
              <li>Put the tubes on the ice about 30 mins.(Time SHOULD BE ACCURATE) </li>
 +
              <li>Make a heat shock at 42 degree centigrade about 30 sec(TIME SHOULD BE ACCURATE) </li>
 +
              <li>Put the tubes on the ice about 2 to 3 mins again. </li>
 +
              <li>Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 40 to 60 min. </li>
 +
              <li>Centrifuge them at 12,000xg about 15 sec and we will se sediment in the tubes. </li>
 +
              <li>Discard the supernatant liquid and leave about 220 ul medium. </li>
 +
              <li>Coat plate: add 200 ul solution in a large plate while add 20 ul solution in a small plate. </li>
 +
              <li>Cultivate these bacteria overnight for further use.</li>
 +
            </ol>
 +
            <div class="divider"></div>
  
<h2>Notebook</h2>
+
            <h4 id="biochemical-analysis" class="scrollspy">Biochemical Analysis</h4>
 +
            <p><strong>SDS-PAGE</strong></p>
 +
            <p><em>Separation Gel</em></p>
 +
            <p>H2O:0.6ml
 +
              <br>80%glycerol:0.6ml
 +
              <br>Gel buffer:1.2ml
 +
              <br>40%Arc-Bis Mix:1.2ml
 +
              <br>10%APS:20ul
 +
              <br>TEMED:2ul</p>
 +
            <p><em>Stacking Gel</em></p>
 +
            <p>H2O:1.0ml
 +
              <br>Gel buffer:0.40ml
 +
              <br>40%Arc-Bis Mix:0.20ml
 +
              <br>10%APS:20ul
 +
              <br>TEMED:2ul</p>
 +
            <p><em>1×glycine Running Buffer</em></p>
 +
            <p><em>Coomassie brilliant blue solution</em></p>
 +
            <p><em>Protocol</em></p>
 +
            <ol>
 +
              <li>Assemble the sheet for adding the gel.</li>
 +
              <li>Prepare separating gel, and load into the sheet suitable height, then dry it at room temperature.</li>
 +
              <li>Prepare stacking gel into the sheet, and plug in the comb, then dry it at room temperature.</li>
 +
              <li>Remove the sheet, and pull out a comb, then transfer the plastic sheet into the electrophoresis tank.</li>
 +
              <li>Add the electrophoresis tank glycine running buffer to the appropriate location.</li>
 +
              <li>Sample electrophoresis.</li>
 +
              <li>After completion of the electrophoresis, the gel was removed, placed in Coomassie brilliant blue solution, stain in a microwave for 1-2min.</li>
 +
              <li>Gel elution, to background staining disappear.</li>
 +
              <li>Observe gel.</li>
 +
            </ol>
 +
            <p><strong>NPN Assay</strong></p>
 +
            <p><em>Material</em></p>
 +
            <p>BL21
 +
              <br>BL21-T7-SCVE
 +
              <br>BL21-T7-OprF
 +
              <br>10mM N-Phenyl-1-naphthylamine(NPN)</p>
 +
            <ol>
 +
              <li>Inoculate an overnight culture (30 mL with 1 mL of pre-culture). </li>
 +
              <li>Centrifugation (15 min at 3000 g) of the whole overnight culture and discard supernatant. </li>
 +
              <li>Resuspend pellet in equal volume of 10 mM PBS buffer. </li>
 +
              <li>Repeat steps 2) and 3) twice. </li>
 +
              <li>Mix 1 mL of washed cells with a 10 mM stock solution of NPN to a final concentration of 10 µM. </li>
 +
              <li>Transfer 200 µL of samples to a flat bottomed black 96 well plate. </li>
 +
              <li>Detect fluorescence intensity.</li>
 +
            </ol>
 +
            <p>Fluorescence intensity of sample is recorded by <a href="http://www.bmglabtech.com/en/products/clariostar/">BMG Labtech CLARIOstar®</a></p>
 +
            <p><strong>ONPG Assay</strong></p>
 +
            <p>BL21
 +
              <br>BL21-T7-SCVE
 +
              <br>BL21-T7-OprF
 +
              <br>ONPG solution.</p>
 +
            <ol>
 +
              <li>Inoculate an overnight culture (30 mL with 1 mL of pre-culture). </li>
 +
              <li>Centrifugation (8 min at 3000 g) of the whole overnight culture and discard supernatant. </li>
 +
              <li>Resuspend pellet in equal volume of 10 mM PBS buffer. </li>
 +
              <li>Repeat steps 2) and 3) twice. </li>
 +
              <li>Inside a clear, flat bottomed 96 well plate, mix 180 µL ONPG (o-nitrophenyl-b-galactopyranoside) stock solution (3 mM in 10 mM PBS buffer) with 20 µL of washed cells. </li>
 +
            </ol>
 +
            <p>Absorbance of sample is recorded by <a href="http://www.bmglabtech.com/en/products/clariostar/">BMG Labtech CLARIOstar®</a></p>
 +
            <div class="divider"></div>
  
<p> Document the dates you worked on your project.</p>
+
            <h4 id="special-protocol-for-ndm" class="scrollspy">Special Protocol for NDM</h4>
 +
            <p><strong>Prepare Bacterial Powder</strong></p>
 +
            <p>for 500mL</p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Yeast Extract</td>
 +
                  <td>2.5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Trtptone</td>
 +
                  <td>2.5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>NaCl</td>
 +
                  <td>15g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>KH2PO4</td>
 +
                  <td>0.5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Na2HPO4·12H2O</td>
 +
                  <td>6.5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>glycerol</td>
 +
                  <td>1.5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>NaCl</td>
 +
                  <td>15g</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>
 +
                <p>prepare the culture medium as above.</p>
 +
              </li>
 +
              <li>
 +
                <p>prepare the drying agent:
 +
                  <br>skim milk 12%(mass fraction)
 +
                  <br>NaCl 2%(mass fraction)</p>
 +
              </li>
 +
              <li>culture the bacterial with the culture medium to log phase.</li>
 +
              <li>centrifuge the bacterial solution at 5,000r/min.</li>
 +
              <li>resuspend bacterial with drying agent in the same volume.</li>
 +
              <li>divide the resuspension into EP tube.</li>
 +
              <li>freeze the bacterial at -80 degree centigrade for 8 hours.</li>
 +
              <li>drying the bacterial with lyophilizer.</li>
 +
              <li>store the bacterial powder at -20 degree centigrade.</li>
 +
            </ol>
 +
            <p><strong>NDM Operation</strong>
 +
              <br>This is a brief protocol on NDM operation. For more information, please visit <a href="https://2015.igem.org/Team:USTC/Tutorials">Tutorials</a></p>
 +
            <p><em>Preparation of antibiotics ruler</em>
 +
              <br>To detect antibiotics concentration, users need firstly prepare standard antibiotic concentration, we will set chloromycetin as an example.</p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ruler Sample</th>
 +
                  <th>Concentration ug/mL</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>1</td>
 +
                  <td>0.1</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>2</td>
 +
                  <td>0.5</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>3</td>
 +
                  <td>1.0</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>4</td>
 +
                  <td>5.0</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <p><em>Coating film with polylysine</em>
 +
              <br>Add approximiately 400 ul 20ug/mL polylysine on the film, and store the film at 4 degree celcius for more than 4 hours. After 4 hours, absorb polylysine and then wash the film by PBS buffer. <em>Note: polylysine can be recycled.</em></p>
 +
            <p><em>Adhesion Assay</em>
 +
              <br>Add 200 ul bacteria solution on film about 100s. <em>Note: bacteria grown should be in steady state, and you should dilate bacteria and let its OD(600) approximiately reach 0.05</em></p>
 +
            <p><em>Operate Optical Path</em>
 +
              <br>Operating optical path within 100s would be highly recommended for users. To get the best images, you should observe and get fringes parallel to y axis of screen as possible.</p>
 +
            <p><em>Observe and Record</em>
 +
              <br>The measurement period is about 300s. Consequently, we recommend users to take a series of images each 10s during the beginning of 300s. </p>
 +
            <div class="divider"></div>
  
<h5>What should this page have?</h5>
+
            <h4 id="materials" class="scrollspy">Materials</h4>
<ul>
+
            <p><strong>Materials of LB Culture Medium</strong>
<li>Chronological notes of what your team is doing.</li>
+
              <br><strong>LB Culture(500ml)</strong></p>
<li> Brief descriptions of daily important events.</li>
+
            <p>Tryptone:5g
<li>Pictures of your progress. </li>
+
              <br>Yeast Extract:2.5g
<li>Mention who participated in what task.</li>
+
              <br>NaCl:5g</p>
</ul>
+
            <p><strong>LB Solid Culture(200ml)</strong></p>
 +
            <p>Tryptone:2g
 +
              <br>Yeast Extract:1g
 +
              <br>NaCl:2g
 +
              <br>AgerA:3g</p>
 +
            <p><strong>PBS Buffer(1L)</strong></p>
 +
            <p>KH2PO4:0.74g
 +
              <br>Na2HPO4:1.42g
 +
              <br>NaCl:8g
 +
              <br>KCl:0.2g
 +
              <br>Add ddH2O about 800mL fully dissolved, then add concentrated hydrochloric acid pH to 7.4, finally set the capacity to 1L.</p>
 +
            <p><strong>ONPG Stock Solution</strong></p>
 +
            <p>ONPG:0.4g
 +
              <br>ddH2O:75ml
 +
              <br>PBS buffer:25ml
 +
              <br>37℃dissolve the ONPG, store in refrigerator without night at 2-5℃.</p>
 +
            <p><strong>NPN Stock Solution(10mM, volume 100ml)</strong></p>
 +
            <p>1N NPN: 1g
 +
              <br>Dissolve the NPN with 100ml anhydrous alcohol, store it store in refrigerator without night at 2-5℃.</p>
 +
            <p><strong>1.5M Tris-HCl(PH 8.8)</strong></p>
 +
            <ol>
 +
              <li>Weigh 181.7g Tris into a 1L beaker</li>
 +
              <li>Add about 800ml de ionized water, stir well</li>
 +
              <li>To be cooled, with concentrated hydrochloric acid to adjust PH to 8.8</li>
 +
              <li>Solution set to 1L</li>
 +
              <li>After high temperature and high pressure sterilization, room temperature preservation</li>
 +
            </ol>
 +
            <p><strong>1.5M Tris-HCl(PH 6.8)</strong></p>
 +
            <ol>
 +
              <li>weigh 181.7g Tris into a 1L beaker</li>
 +
              <li>add about 800ml de ionized water, stir well</li>
 +
              <li>to be cooled, with concentrated hydrochloric acid to adjust PH to 6.8</li>
 +
              <li>solution set to 1L</li>
 +
              <li>after high temperature and high pressure sterilization, room temperature preservation</li>
 +
            </ol>
 +
            <p><strong>10% SDS</strong></p>
 +
            <ol>
 +
              <li>Get 10gSDS adding 80ml ddH2O into a 100ml beaker, 68℃, heated and dissolved.</li>
 +
              <li>Drop the concentrated hydrochloric acid to PH 7.2.</li>
 +
              <li>The solution is determined to be 100ml and the room temperature is kept.</li>
 +
            </ol>
 +
            <p><strong>30% Acrylamide</strong></p>
 +
            <ol>
 +
              <li>Get 280g acrylamide and BIS to 1L.</li>
 +
              <li>Add 800ml deionized water to the beaker, stir to dissolve.</li>
 +
              <li>Add the solution to 1L with deionized water, then use the 0.45um filter to filter the impurities.</li>
 +
              <li>Store the solution in brown bottle at 4℃.</li>
 +
            </ol>
 +
            <p><strong>5×Tris Glycine Buffer</strong></p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass(g)</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Tris</td>
 +
                  <td>15.1g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Glycine</td>
 +
                  <td>94g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>SDS</td>
 +
                  <td>5.0g</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>
 +
                <p>The following reagents are added in a 1L beaker</p>
 +
              </li>
 +
              <li>
 +
                <p>Add about 800ml deionized water, stir and dissolve.</p>
 +
              </li>
 +
              <li>With deionized water, the solution is set to 1L, and the room temperature is kept.</li>
 +
            </ol>
 +
            <p><strong>5×SDS-PAGE Loading Buffer</strong></p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass or volume</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>1M Tris-HCl(PH 6.8)</td>
 +
                  <td>1.25ml</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>SDS</td>
 +
                  <td>0.5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>BPB</td>
 +
                  <td>25mg</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Glycerol</td>
 +
                  <td>2.5ml</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>
 +
                <p>The following reagents are added in a 10ml centrifugal tube.</p>
 +
              </li>
 +
              <li>
 +
                <p>Adding deionized water to dissolve the capacity to 5ml.</p>
 +
              </li>
 +
              <li>Per 500ul packaging, at room temperature.</li>
 +
              <li>Before using 25ul 2-ME added to each of the small.</li>
 +
              <li>Buffer with 2-ME can be saved for a month.</li>
 +
            </ol>
 +
            <p><strong>Bradford R-250 Staining Solution</strong></p>
 +
            <ol>
 +
              <li>Get 1g Bradford R-250, placed in a 1L beaker.</li>
 +
              <li>Take 250ml isopropanol into the beaker, stir to dissolve.</li>
 +
              <li>Adding 100ml to the glacial acetic acid, stirring evenly.</li>
 +
              <li>Add 650ml of deionized water, stirring evenly.</li>
 +
              <li>filter paper to remove particulate matter, room temperature preservation.</li>
 +
            </ol>
 +
            <p><strong>Bradford R-250 Destaining Solution</strong></p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass or volume</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Acetic acid</td>
 +
                  <td>100ml</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Ethanol</td>
 +
                  <td>50ml</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>dH2O</td>
 +
                  <td>850ml</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>
 +
                <p>Take the solution in a 1L beaker.</p>
 +
              </li>
 +
              <li>
 +
                <p>Fully mixed for use.</p>
 +
              </li>
 +
            </ol>
 +
            <p><strong>50×TAE Buffer</strong></p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass or volume</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Tris</td>
 +
                  <td>242g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Na2EDTA·2H2O</td>
 +
                  <td>37.2g</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>
 +
                <p>The following reagents, placed in a 1L beaker.</p>
 +
              </li>
 +
              <li>
 +
                <p>Add 800ml deionized water to the beaker, stir to dissolve.</p>
 +
              </li>
 +
              <li>
 +
                <p>Add 57.1ml acetic acid, stirring.</p>
 +
              </li>
 +
              <li>
 +
                <p>Add deionized water into the solution to 1L, then keep at room temperature.</p>
 +
              </li>
 +
            </ol>
 +
            <p><strong>Agarose</strong></p>
 +
            <ol>
 +
              <li>
 +
                <p>Prepare 1×TAE buffer solution.</p>
 +
              </li>
 +
              <li>
 +
                <p>According to the required amount of agarose and concentration, add into appropriate conical bottle.</p>
 +
              </li>
 +
              <li>
 +
                <p>Adding a certain amount of 1 x buffer TAE.</p>
 +
              </li>
 +
              <li>
 +
                <p>Seal conical bottle with fresh-keeping film, then use the microwave to dissolve agarose.</p>
 +
              </li>
 +
              <li>
 +
                <p>Solution was cooling to 60 degrees Celsius, fully mixed.</p>
 +
              </li>
 +
              <li>
 +
                <p>Insert a suitable comb in the plastic mold, then pour the solution into the plastic mold.</p>
 +
              </li>
 +
              <li>
 +
                <p>Solidify the solution at the room temperature, then place the mold in the electrophoresis tank.</p>
 +
              </li>
 +
            </ol>
 +
            <p><strong>6×Loading Buffer</strong></p>
 +
            <ol>
 +
              <li>The following reagents, placed in a 500ml beaker.</li>
 +
              <li>Add 200ml of deionized water to the beaker, heating and stirring fully dissolved.</li>
 +
              <li>After add 180ml glycerol, the use of NaOH 2N to adjust PH to 7.</li>
 +
              <li>Add deionized water to 500ml, then keep at room temperature. </li>
 +
            </ol>
 +
            <p><strong>Ampicillin</strong></p>
 +
            <ol>
 +
              <li>5g ampicillin in 50ml Centrifugal tube.</li>
 +
              <li>After adding 40ml to the water, fully dissolve the solution, then keep it at 50ml.</li>
 +
              <li>Using 0.22ul filter sterilization.</li>
 +
              <li>Packaging (1ml), stored at -20℃.</li>
 +
            </ol>
 +
            <p><strong>IPTG</strong></p>
 +
            <ol>
 +
              <li>Place 1.2gIPTG in the 50ml centrifuge tube.</li>
 +
              <li>Add 40ml dH2O, fully dissolve the solution, then keep it at 50ml.</li>
 +
              <li>Using 0.22ul filter sterilization.</li>
 +
              <li>Packaging (1ml), stored at 20℃.</li>
 +
            </ol>
 +
            <p><strong>TB Culture</strong></p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass(g)</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Tryptone</td>
 +
                  <td>10g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Yeast Extract</td>
 +
                  <td>5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>NaCl</td>
 +
                  <td>10g</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>Preparation of phosphate buffer solution: 2.31gKH2PO4 and 12.54gK2HPO4 in 90ml deionized water, stirring and dissolving, then keep it at 100ml, high temperature and high pressure sterilized.</li>
 +
              <li>
 +
                <p>Take the following reagents, placed in a 1L conical flask.</p>
 +
              </li>
 +
              <li>
 +
                <p>Add 800ml deionized water, stir and dissolve.</p>
 +
              </li>
 +
              <li>Keep volume at 1L, high temperature and high pressure sterilization.</li>
 +
              <li>Cooling to 60℃, add 100ml phosphate buffer.</li>
 +
              <li>4℃ for preservation.</li>
 +
            </ol>
 +
            <p><strong>SOB Culture</strong></p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass(g)</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Tryptone</td>
 +
                  <td>10g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Yeast Extract</td>
 +
                  <td>5g</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>NaCl</td>
 +
                  <td>10g</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <ol>
 +
              <li>Preparation of 250mM KCl solution: 90ml deionized water dissolved in 1.86gKCl, then keep the solution at 100ml.</li>
 +
              <li>Preparation of KCl 2M solution: 90ml deionized water dissolved in 19gMgCl2, then keep the solution at 100ml, high temperature and high pressure sterilization.</li>
 +
              <li>
 +
                <p>Take the following reagents, placed in a 1L conical flask.</p>
 +
              </li>
 +
              <li>
 +
                <p>Add 800ml deionized water, stir well.</p>
 +
              </li>
 +
              <li>Add 10ml KCl solution into the conical flask.</li>
 +
              <li>Drop NaOH 5N solution, adjust PH to 7.</li>
 +
              <li>Adding de ionized water to 1L.</li>
 +
              <li>High temperature and high pressure sterilization, stored at 4℃.</li>
 +
              <li>Add 5ml 2M MgCl2 solution before using.</li>
 +
            </ol>
 +
            <p><strong>SOC Culture</strong></p>
 +
            <ol>
 +
              <li>Prepare 1M glucose solution:add 18g glucose into 90ml dH2O, fully dissolve the glucose, keep the solution at 100ml.</li>
 +
              <li>Add 2ml 1M glucose solution into 100ml SOB solution,mix them evenly.</li>
 +
              <li>Preserve at 4℃.</li>
 +
            </ol>
 +
            <p><strong>Semi-Solid M63 Medium</strong>
 +
              <br>In order to characterization the movement of TOP10, semi-solid M63 medium preparation is indispensable in this research.</p>
 +
            <p> (500mL Protocol)</p>
 +
            <table>
 +
              <thead>
 +
                <tr>
 +
                  <th>Ingredients</th>
 +
                  <th>Mass</th>
 +
                  <th>Proportion(g/mL) or Mole</th>
 +
                </tr>
 +
              </thead>
 +
              <tbody>
 +
                <tr>
 +
                  <td>Yeast Extract</td>
 +
                  <td>2.5g</td>
 +
                  <td>0.5%</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Trtptone</td>
 +
                  <td>5g</td>
 +
                  <td>1%</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>NaCl</td>
 +
                  <td>5g</td>
 +
                  <td>1%</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>Agar</td>
 +
                  <td>1.25g</td>
 +
                  <td>0.25%</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>KH2PO4</td>
 +
                  <td>6.8g</td>
 +
                  <td>50mM</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>KOH</td>
 +
                  <td>2.1g</td>
 +
                  <td>37.5mM</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>(NH4)2SO4</td>
 +
                  <td>0.09g</td>
 +
                  <td>7.5mM</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>MgSO4</td>
 +
                  <td>0.06g</td>
 +
                  <td>0.5mM</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>FeSO4</td>
 +
                  <td>0.2969g</td>
 +
                  <td>1.95mM</td>
 +
                </tr>
 +
                <tr>
 +
                  <td>D-Glucose</td>
 +
                  <td>1.98g</td>
 +
                  <td>11mM</td>
 +
                </tr>
 +
              </tbody>
 +
            </table>
 +
            <p><strong>Calibration</strong></p>
 +
            <p>Use 1ug/ml Chloromycetin activating bacteria to test the film.</p>
 +
            <p><strong><em>Film</em></strong></p>
 +
            <p>Film type:glass(cover clip——thickness~0.16mm width~2.5cm longth~3.7cm)
 +
              <br>Use the aerosol paint to process one of the surface of the film.
 +
              <br>Coating the film with 400ul 20ug/ml PLL(Poly-L-Lysine) at the temperature of 4℃ for over 4 hours.</p>
 +
            <p><em>Bacteria solution</em>
 +
              <br>Bacteria type: BL21+OprF
 +
              <br>Mix bacteria with PBS and make the OD~0.3.</p>
 +
            <p><em>Sample solution</em>
 +
              <br>1ug/ml Chloromycetin PBS solution.</p>
 +
            <p><em>Inoculation</em>
 +
              <br>Drop 200ul bacteria solution on the processed film for 100s
 +
              <br>After 100s, wash the film with wash solution twice Immediately.</p>
 +
            <p><em>Record images</em>
 +
              <br>1.Put the film into the sample box filled with sample solution.
 +
              <br>2.Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.
 +
              <br>3.From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.</p>
 +
            <p><em>Results</em>
 +
              <br>Succeed in getting the excellent interference fringes.
 +
              <br>Record data and process the image.
 +
              <br>Use the Matlab process the image.
 +
              <br>Get the fitting according to the module thus get the calibration.</p>
 +
            <p><strong><em>Verifying Calibration</em></strong></p>
 +
            <p><em>Sample solution</em>
 +
              <br>(1)1.8ug/ml Chloromycetin PBS solution.
 +
              <br>(2)3.2ug/ml Chloromycetin PBS solution.</p>
 +
            <p><em>result</em>
 +
              <br>Process the gotten images and get the △N.
 +
              <br>Calculate the △N and get the concentration which is 1.80ug/ml and 3.09ug/ml.</p>
 +
          </div>
 +
        </div>
 +
        <div class="col hide-on-small-only m3">
 +
          <div class="toc-wrapper pinned">
 +
            <ul class="section table-of-contents">
 +
              <li>
 +
                <a href="#synthetic-biology">Synthetic Biology</a>
 +
              </li>
 +
              <li>
 +
                <a href="#biochemical-analysis">Biochemical Analysis</a>
 +
              </li>
 +
              <li>
 +
                <a href="#special-protocol-for-ndm">Special Protocol for NDM</a>
 +
              </li>
 +
              <li>
 +
                <a href="#materials">Materials</a>
 +
              </li>
 +
            </ul>
 +
          </div>
 +
        </div>
 +
      </div>
 +
    </div>
  
 +
    <div id="Daily-Notes-Stage-1" class="row">
 +
      <div class="card hoverable">
 +
        <div class="col s12">
 +
          <div class="card-content">
 +
            <ul class="cbp_tmtimeline">
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-04 00:00"><span>2015</span> <span>4/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Medium preparation</h5>
 +
                  <p>Prepare and keep a part of solid medium and broth in the refrigerator as a backup.</p>
 +
                  <h5>Cell culture</h5>
 +
                  <p>Culture the cell,TOP10, with LB liquid solution overnight.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-05 00:00"><span>2015</span> <span>5/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Design protocol</h5>
 +
                  <ol>
 +
                    <li>Take the solid medium, heat it until liquid. Then make two plate of solid medium, evenly. Cool it to the room temperature.</li>
 +
                    <li>prepare antibiotic solution with concentration gradient
 +
                      <br>a. prepare antibiotic(neomycin) solution with ddH2O at 50mg/ml as mother solution 1. And dilute it to 10% concertration(5mg/ml) with ddH2O as mother solution 2. Then prepare 8 parts of solution as this:</li>
 +
                  </ol>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Number</th>
 +
                        <th>Solution 1(V/uL)</th>
 +
                        <th>Solution 2(V/uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>0</td>
 +
                        <td>0</td>
 +
                        <td>0</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>1</td>
 +
                        <td>0</td>
 +
                        <td>0.2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>2</td>
 +
                        <td>0</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>3</td>
 +
                        <td>0.2</td>
 +
                        <td>0</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>4</td>
 +
                        <td>0.4</td>
 +
                        <td>0</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>5</td>
 +
                        <td>0.6</td>
 +
                        <td>0</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>6</td>
 +
                        <td>0.8</td>
 +
                        <td>0</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>7</td>
 +
                        <td>1</td>
 +
                        <td>0</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p> Keep them in the 70℃ water bath. Then add 800uL liquid solid medium into each Ep tubes. Transfer them into 50℃ water bath. </p>
 +
                  <ol>
 +
                    <li>Cut 4 hole in each plate of solid medium, whose diameter is at 8mm. </li>
 +
                    <li>Take 5mL culture into the 2 Ep tubes. Centrifuge it at twice. Then add liquid solid medium at 50℃, each 800uL, dissolve evenly. </li>
 +
                    <li>Take 200uL top10 solution into 8 Ep tubes each at 50℃. Then add the mixed solution into the hole at once until the hole is added up.</li>
 +
                  </ol>
 +
                  <p>Results: the raw results showed differerent characteristics of chemotaxis based on distinct antibiotic concentration.</p>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/2/21/Ustc-chemo16.png" alt="0-3"></p>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/2/24/Ustc-chemo15.png" alt="4-7"></p>
 +
                  <p></p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-12 00:00"><span>2015</span> <span>12/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>4th Colonial PCR for COMPX</h5>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl COMPX-F Primer</li>
 +
                    <li>1μl COMPX-R Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>1μl TOP10 Solution</li>
 +
                    <li>12.35μl ddH2O</li>
 +
                  </ul>
 +
                  <p>Renaturation at 55℃, extend for 1 min. 2 tubes without Taq DNA Polymerase as blank control.</p>
 +
                  <h5>4th Electrophoresis for Colonical PCR</h5>
 +
                  <p>Bands are predicted except one. Maybe caused by accident. PCR product keeped for later use.</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/a/a0/Ustc-compx1.jpg" alt="PCR for COMPX"></p>
 +
                  <h5>1st Plasmid Extraction for BBa K1492002 & pSB1C3</h5>
 +
                  <p>1 Centifuge 5 ml bacterium solution, few sediment getted.</p>
 +
                  <p>2 Add 250 μl Buffer P1, resuspend cells.</p>
 +
                  <p>3 Add 250 μl Buffer P2, mix well, 4 min's standing.</p>
 +
                  <p>4 Add 350 μl Buffer P3, mix well.</p>
 +
                  <p>5 13.4 rpm centifuge 10 min, move all supernatant to adsorption column, 11.6 rpm centifuge 30 s, discard filtrate.</p>
 +
                  <p>6 Add 500 μl Wash Solution, 11.6 rpm centifuge 30 s, discard filtrate. Repeat once.</p>
 +
                  <p>7 11.6 rpm centifuge 1 min.</p>
 +
                  <p>8 Add 50 μl ddH2O, 2 min's standing, 11.6 rpm centifuge 1 min.</p>
 +
                  <h5>1st Electrophoresis for Plasmid Extraction</h5>
 +
                  <p>No result. May due to high concentration of chloramphenicol, bacteria grow very slow. As there is few bacteria, no plasmid getted. Bacterium solution dilute 1:1 with LB medium.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-13 00:00"><span>2015</span> <span>13/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>The steak-plate of <em>Pseudomonas aeruginosa</em> </h5>
 +
                    <p>By using the steak-plate method, we successful separated the single conlony of <em>P. aeruginosa</em>.</p>
 +
                    <p>\(^o^)/~!</p>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/9/94/USTC_notebook_7131.jpg" alt="PA"></p>
 +
                    <h5>2nd Plasmid Extraction for BBa K1492002 & pSB1C3</h5>
 +
                    <ol>
 +
                      <li>Centifuge 4.5 ml bacterium solution.</li>
 +
                      <li>Add 250 μl Buffer P1, resuspend cells.</li>
 +
                      <li>Add 250 μl Buffer P2, mix well, 4 min's standing.</li>
 +
                      <li>Add 350 μl Buffer P3, mix well.</li>
 +
                      <li>13.4 rpm centifuge 10 min, move all supernatant to adsorption column, 11.6 rpm centifuge 30 s, discard filtrate.</li>
 +
                      <li>Add 500 μl Wash Solution, 11.6 rpm centifuge 30 s, discard filtrate. Repeat once.</li>
 +
                      <li>11.6 rpm centifuge 1 min.</li>
 +
                      <li>Add 30 μl ddH2O, 2 min's standing, 11.6 rpm centifuge 1 min.</li>
 +
                    </ol>
 +
                    <h5>2nd Electrophoresis for Plasmid Extraction</h5>
 +
                    <p>Successfully extracted tRNA plasmid. Failed to extract pSB1C3 plasmid, cause culture is contaminated.</p>
 +
                    <p>Result:</p>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/d/dc/USTC_notebook_7132.jpg" alt="plasmid extraction"></p>
 +
                    <p>tRNA 114ng/μl</p>
 +
                    <h5>1st PCR for tRNA</h5>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl tRNA-F2 Primer</li>
 +
                      <li>1μl tRNA-R Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl tRNA plasmid</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>Renaturation at 50℃, extend for 1:30.</p>
 +
                    <h5>1st Electrophoresis for tRNA PCR</h5>
 +
                    <p>No result. </p>
 +
                    <h5>Transformation of Four Parts of Plate 4 </h5>
 +
                    <ul>material:
 +
                        <li>competent cell TG1 from the lab 319</li>
 +
                        <li>4 parts of the plate 4(pSB1A2)</li>
 +
                        <li>No.1:BBa_B0034 No.2:BBa_C0051</li>
 +
                        <li>No.3:BBa_R0051 No.4:BBa_E0040</li>
 +
                    </ul>
 +
                    <ol>the procedure
 +
                        <li>Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved</li>
 +
                        <li>Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.</li>
 +
                        <li>Put the tubes on the ice about 30 mins.</li>
 +
                        <li>Make a heat shock at 42 degree centigrade about 60 sec</li>
 +
                        <li>Put the tubes on the ice about 3 mins again.</li>
 +
                        <li>Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.</li>
 +
                        <li>Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.</li>
 +
                        <li>Discard the supernatant liquid and leave about 100ul medium.</li>
 +
                        <li>Coat plate: add 100ul solution in a plate</li>
 +
                    </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-14 00:00"><span>2015</span> <span>14/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>The Results of Transformation of Jul 13th</h5>
 +
                    <p>transformations of three parts are successful:</p>
 +
                    <ul>
 +
                      <li>No.1 B0034</li>
 +
                      <li>No.2 C0051</li>
 +
                      <li>No.4 E0040</li>
 +
                    </ul>
 +
                    <p>transformation of one part is failing:</p>
 +
                      <p>No.3 R0051</p>
 +
                    <h5>Plasmid Extraction of pSB1C3</h5>
 +
                    <p>the plasmis:pSB1C3</p>
 +
                    <p>the procedure:</p>
 +
                    <ol>
 +
                      <li>Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                      <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                      <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                      <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                      <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                      <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                      <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                      <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                      <li>Do the step 8 again.</li>
 +
                      <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                      <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 1 min and centrifuge about 1 min at 12,000xg.</li>
 +
                    </ol>
 +
                    <p>PS:this protocol is from lab 319</p>
 +
                    <p>the concentration :11.0ng/ul</p>
 +
                    <p>PS:the concentration of the control plasmid is 136.0 ng/ul,so we guess that maybe the concentration of bacterium solution is low.Also we guess that it's caused by the missing of spreading.</p>
 +
                    <h5>Transformation of Three Parts and One Plasmid</h5>
 +
                    <ol>the plasmid going to be transformed:
 +
                        <li>No.1 BBa_R0062(plate 2;pSB1C3)</li>
 +
                        <li>No.2 BBa_B0015(plate 3;pSB1C3)</li>
 +
                        <li>No.3 BBa_R0051(plate 4;pSB1A2)</li>
 +
                        <li>No.4 pSB1C3</li>
 +
                    </ol>
 +
                    <ol>the procedure:
 +
                      <p>note:add 1 ul R0062 ,1 ul B0015,2 ul R0051,</p>
 +
                      <p>2 ul pSB1C3 to 100 ul competent cells respectively</p>
 +
                      <li>Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved</li>
 +
                      <li>Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.</li>
 +
                      <li>Put the tubes on the ice about 30 mins.</li>
 +
                      <li>Make a heat shock at 42 degree centigrade about 60 sec</li>
 +
                      <li>Put the tubes on the ice about 3 mins again.</li>
 +
                      <li>Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.</li>
 +
                      <li>Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.</li>
 +
                      <li>Discard the supernatant liquid and leave about 100ul medium.</li>
 +
                      <li>Coat plate: add 100ul solution in a plate </li>
 +
                    </ol>
 +
                    <h5>Plasmid Extraction of Three Parts of Plate 4</h5>
 +
                    <p>the procedure is the same as before</p>
 +
                    <p>the concentration :</p>
 +
                    <p>B0034 157.6ng/ul, 113.7ng/ul;</p>
 +
                    <p>C0051 171.7ng/ul, 194.6ng/ul;</p>
 +
                    <p>E0040 278.5ng/ul, 228.2ng/ul</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-15 00:00"><span>2015</span> <span>15/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>Results of transformation </h5>
 +
                    <p>R0051 no colony</p>
 +
                    <p>R0062 have single colony</p>
 +
                    <p>B0015 have single colony</p>
 +
                    <p>pSB1C3 have single colony and the colony is red</p>
 +
                    <h5>Plasmid Extraction Results</h5>
 +
                    <p>This is extraction was for previous transformation.</p>
 +
                    <ul>
 +
                      <li>pSB1C3(1): 108ng/uL</li>
 +
                      <li>pSB1C3(2): 157ng/uL</li>
 +
                      <li>B0015(1): 19ng/uL</li>
 +
                      <li>B0015(2): 93ng/uL</li>
 +
                    </ul>
 +
                    <p>Prepared for further use.</p>
 +
                </div>
 +
              </li>                     
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-16 00:00"><span>2015</span> <span>16/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>Colonical PCR for micF and SoxS</h5>
 +
                    <p>Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Primer</th>
 +
                          <th>Sequence(5'-3')</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>micF-luxI-R</td>
 +
                          <td>TTATAGTCATATAAATTTTCTCCTCTTTCCGAATGCGAGGCATCC</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>micF-F</td>
 +
                          <td>GCGGCCGCTTCTAGAGCCTCATTAATCAGTCGGC</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>SoxS-RBS-luxI-R</td>
 +
                          <td>TATAGTCATATAAATTTTCTCCTCTTTCTAGTGCGTGCGCCGGTACCTT</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>BB-SoxS-F</td>
 +
                          <td>CGGCCGCTTCTAGAGCGTGCGGAACATTCG</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <p>For micF, primers including micF-luxI-R, micF-F, protocol as following:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl micF-luxI-R Primer</li>
 +
                      <li>1μl micF-F Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl Top10(K-12) Strain <em>E. coli</em> bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>For SoxS, primers including SoxS-RBS-luxI-R, BB-SoxS-F, protocol illustrates as:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl SoxS-RBS-luxI-R Primer</li>
 +
                      <li>1μl BB-SoxS-F Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl 1μl Top10(K-12) Strain <em>E. coli</em> bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>PCR cycle including:</p>
 +
                    <ol>
 +
                      <li>Preheat: 94 degree celcius, 5min</li>
 +
                      <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                      <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                      <li>4 celcius degree for preserveation.</li>
 +
                    </ol>
 +
                    <h5>Characterization of Colonical PCR by Gel Electrophoresis</h5>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/6/61/USTC_notebook_7171.jpg" alt="PCR"></p>
 +
                    <p>The result illustrated the success of PCR</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-17 00:00"><span>2015</span> <span>17/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>Colonical PCR for OprF from <em>Psudomonus aeruginosa</em></h5>
 +
                    <p>Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Primer</th>
 +
                          <th>Sequence(5'-3')</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>OprF-F</td>
 +
                          <td>AGAGGAGAAAATCGGAATGAAACTGAAGAACAC</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>OprF+Ter-R</td>
 +
                          <td>TGATGCCTGGCTCTAGTATTACTTGGCTTCAGCTT</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <p>PCR protocol:</p>
 +
                    <p>For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl OprF-F Primer</li>
 +
                      <li>1μl OprF+Ter-R Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl <em>Psudomonus aeruginosa</em> (PAO1) bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>PCR cycle including:</p>
 +
                    <ol>
 +
                      <li>Preheat: 94 degree celcius, 5min</li>
 +
                      <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                      <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                      <li>4 celcius degree for preserveation.</li>
 +
                    </ol>
 +
                    <h5>Plasmid Extraction of SCVE</h5>
 +
                    <p>SCVE synthesized from Sangon Biotech Co.,Ltd.</p>
 +
                    <p>Procedure including:</p>
 +
                    <ol>
 +
                      <li>Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                      <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                      <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                      <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                      <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                      <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                      <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                      <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                      <li>Do the step 8 again.</li>
 +
                      <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                      <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 1 min and centrifuge about 1 min at 12,000xg. </li>
 +
                    </ol>
 +
                    <h5>Characterization of SCVE and OprF by Gel Electrophoresis</h5>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/0/01/USTC_notebook_7172.jpg" alt="PCR"></p>
 +
                    <p>Only 1/4 PCR results successfully duplicated results, plasimid extraction from SCVE showed well.</p>
 +
                    <p>Second PCR for OprF didn't work well:(</p>
 +
                    <h5>Digestion of E0040(EGFP)</h5>
 +
                    <p>Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer</p>
 +
                    <p>Protocol as following:</p>
 +
                    <ul>
 +
                      <li>Nuclease-free water: 15ul</li>
 +
                      <li>E0040: 1ul</li>
 +
                      <li>10* FastDigest Green Buffer: 2ul</li>
 +
                      <li>EcoRI: 1ul</li>
 +
                      <li>SpeI: 1ul</li>
 +
                    </ul>
 +
                    <p>We are trying to figure out the best conditions of our experiment and whether we need loading buffer</p>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Time</th>
 +
                          <th>With Loading Buffer or not</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>5min</td>
 +
                          <td>Yes(1), No(2)</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>2h</td>
 +
                          <td>Yes(3), No(4)</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <h5>PCR of E0040(EGFP)</h5>
 +
                    <p>Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Primer</th>
 +
                          <th>Sequence(5'-3')</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>E0040-F</td>
 +
                          <td>ATGCGTAAAGGAGAAGAACTTT</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>R0051-E0040-R</td>
 +
                          <td>TACGCATATAAATTTTCTCCTCTTTGCAACCA</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <p>For E0040, primers including E0040-F, R0051-E0040-R, protocol as following:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl E0040-F Primer</li>
 +
                      <li>1μl R0051-E0040-R Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl plasmid(pSB1C3) containing E0040</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>PCR cycle including:</p>
 +
                    <ol>
 +
                      <li>Preheat: 94 degree celcius, 5min</li>
 +
                      <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                      <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                      <li>4 celcius degree for preserveation.</li>
 +
                    </ol>
 +
                    <p><em>Attention</em>: R0051-E0040-R Primer is not appropriate because of only 8 complementary base pairs.</p>
 +
                    <h5>Characterization of E0040 from Digestion and PCR </h5>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/4/48/USTC_notebook_7173.jpg" alt="PCR"></p>
 +
                    <p>Result illustrated that <em>We do need loading buffer, and 5 min do work!</em></p>
 +
                    <p>PCR showed more concentration of E0040!</p>
 +
                    <h5>Gel Extraction</h5>
 +
                    <p>Preparation:</p>
 +
                    <ol>
 +
                      <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                      <li>Check out whether Buffer B2 has sediment. </li>
 +
                      <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                    </ol>
 +
                    <p>Procedure:</p>
 +
                    <ol>
 +
                      <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                      <li>Measure out the weight of tubes of gel. </li>
 +
                      <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                      <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                      <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                      <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                      <li>Do the step 5 again. </li>
 +
                      <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                      <li>Open the columns and air them about 10 mins. </li>
 +
                      <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                      <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                    </ol>
 +
                    <p>Final OD results:</p>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Code</th>
 +
                          <th>OD(ng/ul)</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>PCR(1)</td>
 +
                          <td>15.3</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>PCR(2)</td>
 +
                          <td>4.5</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>PCR(3)</td>
 +
                          <td>27.0</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>Digestion(1) with 5 mins</td>
 +
                          <td>15.4</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>Digestion(3) with 2 h</td>
 +
                          <td>22.7</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <p>Perseved for further use.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-18 00:00"><span>2015</span> <span>18/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>Transfofmation of Three Parts</h5>
 +
                    <p>Protocol as following</p>
 +
                    <ul>
 +
                      <li>100μl (three tubes)competent cells</li>
 +
                      <li>C0062(pSB1C3)</li>
 +
                      <li>R0010(pSB1C3)</li>
 +
                      <li>C0061(pSB1C3)</li>
 +
                      <li>LB without antibiotic</li>
 +
                      <li>LB medium with Amp/CmR</li>
 +
                    </ul>
 +
                    <h5>Plasmid Extraction of E0040</h5>
 +
                    <p>Procedure including:</p>
 +
                    <p>1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</p>
 +
                      <p>2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</p>
 +
                      <p>3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</p>
 +
                    <p>4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</p>
 +
                    <p>5.Centrifuge tubes at 12,000xg about 10 mins.</p>
 +
                    <p>6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</p>
 +
                    <p>7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</p>
 +
                    <p>8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</p>
 +
                    <p>9.Do the step 8 again.</p>
 +
                    <p>10.Centrifuge the empty columns at 12,000xg about 1 min.</p>
 +
                    <p>11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </p>
 +
                    <p><em>Results</em></p>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Code</th>
 +
                          <th>OD(ng/ul)</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>E0040(1)</td>
 +
                          <td>166.7</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>E0040(2)</td>
 +
                          <td>169.2</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <h5>Colonical PCR for OprF from <em>Psudomonus aeruginosa</em></h5>
 +
                    <p>PCR protocol:</p>
 +
                    <p>For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl OprF-F Primer</li>
 +
                      <li>1μl OprF+Ter-R Primer</li>
 +
                      <li>0.5μl Taq DNA Polymerase(<em>add more 0.25ul then previous protocol</em>)</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl <em>Psudomonus aeruginosa</em> (PAO1) bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>PCR cycle including:</p>
 +
                    <ol>
 +
                      <li>Preheat: 94 degree celcius, 5min</li>
 +
                      <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                      <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                      <li>4 celcius degree for preserveation.</li>
 +
                    </ol>
 +
                    <h5>Digestion of E0040(EGFP)</h5>
 +
                    <p>Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer</p>
 +
                    <p>Protocol as following:</p>
 +
                    <ul>
 +
                      <li>Nuclease-free water: 15ul</li>
 +
                      <li>E0040: 1ul</li>
 +
                      <li>10* FastDigest Green Buffer: 2ul</li>
 +
                      <li>EcoRI: 1ul</li>
 +
                      <li>SpeI: 1ul</li>
 +
                    </ul>
 +
                    <h5>Characterization of OprF and E0040</h5>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/f/f0/USTC_notebook_7174.jpg" alt="图片名称"></p>
 +
                    <p></p>
 +
                    <p></p>
 +
                    <h5>Plasmid Extraction of Cas9(K1218011)</h5>
 +
                    <p>The bacteria were cultured at 9 am from successfully transformed bacteria. </p>
 +
                    <p>Procedure including:</p>
 +
                    <p>1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</p>
 +
                    <p>2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</p>
 +
                    <p>3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</p>
 +
                    <p>4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</p>
 +
                    <p>5.Centrifuge tubes at 12,000xg about 10 mins.</p>
 +
                    <p>6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</p>
 +
                    <p>7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</p>
 +
                    <p>8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</p>
 +
                    <p>9.Do the step 8 again.</p>
 +
                    <p>10.Centrifuge the empty columns at 12,000xg about 1 min.</p>
 +
                    <p>11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </p>
 +
                    <h5>Characterization of Cas9</h5>
 +
                    <p><img src="https://static.igem.org/mediawiki/2015/9/97/USTC_notebook_7181.jpg" alt="图片名称"></p>
 +
                    <p></p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-19 00:00"><span>2015</span> <span>19/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                    <h5>Digestion of K1218011(Cas9)</h5>
 +
                    <p>Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer</p>
 +
                    <p>Protocol as following:</p>
 +
                    <ul>
 +
                      <li>Nuclease-free water: 15ul</li>
 +
                      <li>K1218011: 1ul</li>
 +
                      <li>10* FastDigest Green Buffer: 2ul</li>
 +
                      <li>EcoRI: 1ul</li>
 +
                      <li>SpeI: 1ul</li>
 +
                    </ul>
 +
                    <p>Incubate into 37 degree celcius, 2h</p>
 +
                    <h5>Digestion of SCVE</h5>
 +
                    <p>Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer</p>
 +
                    <p>Protocol as following:</p>
 +
                    <ul>
 +
                      <li>Nuclease-free water: 16ul</li>
 +
                      <li>SCVE: 1ul</li>
 +
                      <li>10* FastDigest Green Buffer: 2ul</li>
 +
                      <li>SmaI: 1ul</li>
 +
                    </ul>
 +
                    <p>Incubate into 37 degree celcius, 2h</p>
 +
                    <h5>Colonical PCR for OprF from *Psudomonus aeruginosa, micF and SoxS from K-12 </h5>
 +
                    <p>PCR protocol:</p>
 +
                    <p>For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl OprF-F Primer</li>
 +
                      <li>1μl OprF+Ter-R Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl <em>Psudomonus aeruginosa</em> (PAO1) bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>For micF, primers including micF-luxI-R, micF-F, protocol as following:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl micF-luxI-R Primer</li>
 +
                      <li>1μl micF-F Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl Top10(K-12) Strain <em>E. coli</em> bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>For SoxS, primers including SoxS-RBS-luxI-R, BB-SoxS-F, protocol illustrates as:</p>
 +
                    <ul>
 +
                      <li>2μl Taq buffer with KCl</li>
 +
                      <li>0.4μl dNTPs</li>
 +
                      <li>1μl SoxS-RBS-luxI-R Primer</li>
 +
                      <li>1μl BB-SoxS-F Primer</li>
 +
                      <li>0.25μl Taq DNA Polymerase</li>
 +
                      <li>2μl MgCl2</li>
 +
                      <li>1μl 1μl Top10(K-12) Strain <em>E. coli</em> bacterial solution</li>
 +
                      <li>12.35μl ddH2O</li>
 +
                    </ul>
 +
                    <p>PCR cycle including:</p>
 +
                    <ol>
 +
                      <li>Preheat: 94 degree celcius, 5min</li>
 +
                      <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                      <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                      <li>4 celcius degree for preserveation.</li>
 +
                    </ol>
 +
                    <h5>Praparation for Competent Cell</h5>
 +
                    <p>protocol as the following:</p>
 +
                    <ol>
 +
                      <li>Pick out two single colonies(TG1) and cultivate bacteria in 5mL LB media at 37 degree centigrade about 12 hours with shocking. </li>
 +
                      <li>Take 5mL nutrient solution into 100 mL media and cultivate bacteria at 37 degree centigrade about one hour and a half with shocking till the OD660 reaches 0.4-0.5. </li>
 +
                      <li>Absorb 50 mL nutrient solution into EP tubes with ice-bath about 10 mins. </li>
 +
                      <li>Centrifuge the tubes at 4100xg at 4 degree centigrade about 10mins and discard the supernatant liquid.</li>
 +
                      <li>Utilize 30 mL 0.1M calcium chloride to suspend bacteria.</li>
 +
                      <li>Centrifuge the tubes at 4100xg at 4 degree centigrade about 10 mins and discard the supernatant liquid. </li>
 +
                      <li>Utilize 2 mL 0.1M calcium chloride with 15% glycerol to suspend bacteria and then ready for transformation quickly or restore at -70 degree centigrade.</li>
 +
                    </ol>
 +
                    <table>
 +
                      <thead>
 +
                        <tr>
 +
                          <th>Time(min)</th>
 +
                          <th>OD600</th>
 +
                        </tr>
 +
                      </thead>
 +
                      <tbody>
 +
                        <tr>
 +
                          <td>40</td>
 +
                          <td>0.195</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>60</td>
 +
                          <td>0.203</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>80</td>
 +
                          <td>0.309</td>
 +
                        </tr>
 +
                        <tr>
 +
                          <td>90</td>
 +
                          <td>0.439</td>
 +
                        </tr>
 +
                      </tbody>
 +
                    </table>
 +
                    <p>PS:dilute the solution by adding 100 mL LB media after first test.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-20 00:00"><span>2015</span> <span>20/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Negative Chemotaxis Characterization</h5>
 +
                  <p>term 1, material:</p>
 +
                  <ul>
 +
                    <li>LB solid medium plates x4</li>
 +
                    <li>1g/ml Chloramphenicol</li>
 +
                    <li>E.coli Top10</li>
 +
                    <li>filter paper</li>
 +
                  </ul>
 +
                  <h5>Plasmid Extraction of EmrE and ArcB</h5>
 +
                  <p>done by Wang Luyao</p>
 +
                  <p>Procedure including:</p>
 +
                  <ol>
 +
                    <li>Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                    <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                    <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                    <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                    <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                    <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                    <li>Do the step 8 again.</li>
 +
                    <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                    <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </li>
 +
                  </ol>
 +
                  <p>the concentration as following</p>
 +
                  <p>EmrE 70.2 ng/ul 92.3 ng/ul</p>
 +
                  <p>ArcB 62.6 ng/ul 95.2 ng/ul</p>
 +
                  <h5>Transformation of R0051 and C0061</h5>
 +
                  <p>the source of parts:</p>
 +
                  <p>No.1 R0051 2014 kit plate 4</p>
 +
                  <p>No.2 R0051 2014 kit plate 4</p>
 +
                  <p>No.3 control</p>
 +
                  <p>No.4 C0061 2015 kit plate 4</p>
 +
                  <p>No.5 C0061 2015 kit plate 4</p>
 +
                  <p>No.6 C0061 2014 kit plate 4</p>
 +
                  <p>No.1 and No.4 the competent cell is from lab319</p>
 +
                  <p>No.2 and No.5 the competent cell is made by us (firt)</p>
 +
                  <p>No.3 and No.6 the competent cell is made by us (second)</p>
 +
                  <p>the protocol as following</p>
 +
                  <ol>
 +
                    <li>Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved</li>
 +
                    <li>Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.</li>
 +
                    <li>Put the tubes on the ice about 30 mins.</li>
 +
                    <li>Make a heat shock at 42 degree centigrade about 60 sec</li>
 +
                    <li>Put the tubes on the ice about 3 mins again.</li>
 +
                    <li>Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.</li>
 +
                    <li>Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.</li>
 +
                    <li>Discard the supernatant liquid and leave about 100ul medium.</li>
 +
                    <li>Coat plate: add 100ul solution in a plate</li>
 +
                  </ol>
 +
                  <h5>PCR of OrpF</h5>
 +
                  <p>material:</p>
 +
                  <ul>
 +
                    <li>13 uL Taq Master Mix </li>
 +
                    <li>11 uL dd water</li>
 +
                    <li>1 uL PAO1 bacterial</li>
 +
                    <li>0.5 uL primer Fd(OrpF-F)</li>
 +
                    <li>0.5 uL primer Rv(OrpF+Ter-R)
 +
                      <br>PS:Taq Master Mix is from lab 319 ,and this reagent is used for bacterial PCR.</li>
 +
                  </ul>
 +
                  <p>Renaturation at 50℃, extend for 1:10</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-21 00:00"><span>2015</span> <span>21/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>PCR of OprF</h5>
 +
                  <p>material:</p>
 +
                  <p>No.1 and No.2:</p>
 +
                  <ul>
 +
                    <li>6.5 uL Taq Master Mix</li>
 +
                    <li>1 uL PAO1 bacterial solution</li>
 +
                    <li>4.5 uL dd water</li>
 +
                    <li>0.5 uL OprF-F</li>
 +
                    <li>0.5 uL OprF+Ter-R</li>
 +
                  </ul>
 +
                  <p>No.3 and No.4:</p>
 +
                  <ul>
 +
                    <li>6.5 uL Taq Master Mix</li>
 +
                    <li>4 uL OprF PCR product</li>
 +
                    <li>1.5 uL dd water </li>
 +
                    <li>0.5 uL OprF-F</li>
 +
                    <li>0.5 uL OprF+Ter-R</li>
 +
                  </ul>
 +
                  <p>PS:Taq Master Mix is from lab 319 ,and this reagent is used for bacterial PCR.</p>
 +
                  <p>Renaturation at 55℃, extend for 1:10</p>
 +
                  <h5>OprF for PCR  and gel electrophoresisOprF</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/5/56/Ustc-gel2.jpg" alt="图片名称"></p>
 +
                  <p>analyze: the length of the product is </p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-22 00:00"><span>2015</span> <span>22/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Preparation of Semi-Solid LB Medium</h5>
 +
                  <p>In order to characterization the movement of TOP10, semi-solid LB medium preparation is indispensable in this research.</p>
 +
                  <p> (500mL Protocol)</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Mass</th>
 +
                        <th>Proportion(g/mL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Yeast Extract</td>
 +
                        <td>2.5g</td>
 +
                        <td>0.5%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Trtptone</td>
 +
                        <td>5g</td>
 +
                        <td>1%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>NaCl</td>
 +
                        <td>5g</td>
 +
                        <td>1%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Agar</td>
 +
                        <td>1.25g</td>
 +
                        <td>0.25%</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Compared with solid LB medium, containing 1.5% agar in there.</p>
 +
                  <h5>Plasmid Extraction C0051,B0015 and R0062</h5>
 +
                  <p>Procedure including:</p>
 +
                  <ol>
 +
                    <li>Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                    <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                    <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                    <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                    <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                    <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                    <li>Do the step 8 again.</li>
 +
                    <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                    <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </li>
 +
                  </ol>
 +
                  <p>the concentration as following</p>
 +
                  <p>C0015:171.7 ng/uL</p>
 +
                  <p>B0015:93 ng/uL</p>
 +
                  <p>R0062:144.3 ng/uL</p>
 +
                  <h5>PCR of C0051,B0015 and R0062</h5>
 +
                  <p>material:</p>
 +
                  <p>C0051 plasmid(171.7 ng/uL)</p>
 +
                  <p>B0015 plasmid(93 ng/uL)</p>
 +
                  <p>R0062 plasmid(144.3 ng/uL)</p>
 +
                  <p>all the solutions are diluted 10-folds </p>
 +
                  <p>Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>C0051-F(I)</td>
 +
                        <td>att tat atg agc aaa aag aaa cca tta tca</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0051-B0015-R(I)</td>
 +
                        <td>tat ttg atg cct ggc tct agt gat cta cac tag cac ta</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R(I)</td>
 +
                        <td>gcc gct act agt taa acg cag aaa ggc cca cc</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-F</td>
 +
                        <td>cca ggc atc aaa taa aac gaa agg</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0062-F</td>
 +
                        <td>gcg gcc gct tct aga gac ctg tag gat cg</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0062-C0051-R</td>
 +
                        <td>tgt gct cat ata aat ttt ctc ctc ttt cta gat ttt att cga c</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>No.1 and No.2 for C0051(803bp)</p>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>2.5 μl Taq buffer with KCl</li>
 +
                    <li>2.5 μl dNTPs</li>
 +
                    <li>0.75 μl C0051-F Primer</li>
 +
                    <li>0.75 μl C0051-B0015-R(I) Primer</li>
 +
                    <li>0.5 μl Taq DNA Polymerase</li>
 +
                    <li>1.0 μl MgCl2</li>
 +
                    <li>2 uL C0051 solution</li>
 +
                    <li>15 μl ddH2O</li>
 +
                  </ul>
 +
                  <p>No.3 and No.4 for B0015(142bp)</p>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>2.5 μl Taq buffer with KCl</li>
 +
                    <li>2.5 μl dNTPs</li>
 +
                    <li>0.75 μl B0015-F Primer</li>
 +
                    <li>0.75 μl B0015-R(I) Primer</li>
 +
                    <li>0.5 μl Taq DNA Polymerase</li>
 +
                    <li>1.0 μl MgCl2</li>
 +
                    <li>3 uL C0051 solution</li>
 +
                    <li>14 μl ddH2O</li>
 +
                  </ul>
 +
                  <p>No.5 and No.6 for R0062(104bp)</p>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>2.5 μl Taq buffer with KCl</li>
 +
                    <li>2.5 μl dNTPs</li>
 +
                    <li>0.75 μl R0062-F Primer</li>
 +
                    <li>0.75 μl R0062-C0051-R Primer</li>
 +
                    <li>0.5 μl Taq DNA Polymerase</li>
 +
                    <li>1.0 μl MgCl2</li>
 +
                    <li>2 uL R0062 solution</li>
 +
                    <li>15 μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 2min(C0061)or 1min(B0015 and R0062)</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Preparation Semi-Solid M63 Medium</h5>
 +
                  <p>In order to characterization the movement of TOP10, semi-solid M63 medium preparation is indispensable in this research.</p>
 +
                  <p> (500mL Protocol) </p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Mass</th>
 +
                        <th>Proportion(g/mL) or Mole</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Yeast Extract</td>
 +
                        <td>2.5g</td>
 +
                        <td>0.5%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Trtptone</td>
 +
                        <td>5g</td>
 +
                        <td>1%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>NaCl</td>
 +
                        <td>5g</td>
 +
                        <td>1%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Agar</td>
 +
                        <td>1.25g</td>
 +
                        <td>0.25%</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>KH2PO4</td>
 +
                        <td>6.8g</td>
 +
                        <td>50mM</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>KOH</td>
 +
                        <td>2.1g</td>
 +
                        <td>37.5mM</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>(NH4)2SO4</td>
 +
                        <td>0.09g</td>
 +
                        <td>7.5mM</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgSO4</td>
 +
                        <td>0.06g</td>
 +
                        <td>0.5mM</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>FeSO4·7H2O</td>
 +
                        <td>0.2710g</td>
 +
                        <td>1.95mM</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>D-Glucose</td>
 +
                        <td>1.98g</td>
 +
                        <td>11mM</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <h5>Colonical PCR for OprF from <em>Psudomonus aeruginosa</em> and SCVE from pUC57</h5>
 +
                  <p>PCR protocol:</p>
 +
                  <p>For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:</p>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl OprF-F Primer</li>
 +
                    <li>1μl OprF+Ter-R Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>1μl <em>Psudomonus aeruginosa</em> (PAO1) bacterial solution</li>
 +
                    <li>12.35μl ddH2O</li>
 +
                  </ul>
 +
                  <p>For SCVE, Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>SCVE-T-R</td>
 +
                        <td>TTGATGCCTGGCTCTAGTACACCAGCAGATCCGG</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-RBS-SCVE-F</td>
 +
                        <td>TTTTTGCATACTAGAGAAAGAGGAGAAAATTTATATGTATAGCTTTGTG</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl SCVE-T-R Primer</li>
 +
                    <li>1μl T7-RBS-SCVE-F Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>1μl SCVE solution from plasmid extraction</li>
 +
                    <li>12.35μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis of OprF, SCVE micF and SoxS</h5>
 +
                  <p>micF and SoxS</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/9/90/Ustc-gel3.jpg" alt="图片名称"></p>
 +
                  <p>OprF and SCVE</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/16/Ustc-gel4.jpg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: OprF, SoxS, micF</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-23 00:00"><span>2015</span> <span>23/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Plasmid Extraction of R0062</h5>
 +
                  <p>Procedure including:</p>
 +
                  <ol>
 +
                    <li>Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                    <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                    <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                    <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                    <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                    <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                    <li>Do the step 8 again.</li>
 +
                    <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                    <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </li>
 +
                  </ol>
 +
                  <h5>PCR for OprF and C0061</h5>
 +
                  <p>PCR protocol:</p>
 +
                  <p>For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:</p>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl OprF-F Primer</li>
 +
                    <li>1μl OprF+Ter-R Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>1μl <em>Psudomonus aeruginosa</em> (PAO1) bacterial solution</li>
 +
                    <li>12.35μl ddH2O</li>
 +
                  </ul>
 +
                  <p>For SCVE, Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>C0061-F</td>
 +
                        <td>ATGACTATAATGATAAAAAAATCGGATTTTTTGGCA</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061-B0015-R</td>
 +
                        <td>ATTTGATGCCTGGGAGATCTACACTAGC</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl C0061-F Primer</li>
 +
                    <li>1μl C0061-B0015-R Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>1μl C0061 solution</li>
 +
                    <li>12.35μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Extraction of C0062,B0015 and R0062</h5>
 +
                  <p>Material including: C0051,B0015 and R0062</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>the concentration as following:</p>
 +
                  <p>C0051:12.7 ng/uL</p>
 +
                  <p>B0015:7.3 ng/uL</p>
 +
                  <p>R0062:7.7 ng/uL</p>
 +
                  <h5>PCR of OprF</h5>
 +
                  <p>material:</p>
 +
                  <ul>
 +
                    <li>13 uL Taq Master Mix </li>
 +
                    <li>11 uL dd water</li>
 +
                    <li>1 uL PAO1 bacterial</li>
 +
                    <li>0.5 uL primer Fd(OrpF-F)</li>
 +
                    <li>0.5 uL primer Rv(OrpF+Ter-R)</li>
 +
                  </ul>
 +
                  <p>Renaturation at 55℃, extend for 2min</p>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>C0051 and B0015</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/16/Ustc-gel4.jpg" alt="图片名称"></p>
 +
                  <p>OprF</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/2/28/Ustc-gel6.jpg" alt="图片名称"></p>
 +
                  <p>That was relatively successully extracted OprF from colonical PCR.</p>
 +
                  <p>R0062</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/c/cd/Ustc-gel7.jpg" alt="图片名称"></p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-24 00:00"><span>2015</span> <span>24/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Preparation for Homologous Recombination: Plasimid Digestion</h5>
 +
                  <p>Enzyme from <em>Thermo Scientific FastDigest</em> Enzyme with 10X Green Buffer</p>
 +
                  <p>Protocol as following:</p>
 +
                  <ul>
 +
                    <li>Nuclease-free water: 15ul</li>
 +
                    <li>pSB1C3: 1ul</li>
 +
                    <li>10* FastDigest Green Buffer: 2ul</li>
 +
                    <li>EcoRI: 1ul</li>
 +
                    <li>SpeI: 1ul</li>
 +
                  </ul>
 +
                  <p>Incubate solution at 37 degree celcius about 2h.</p>
 +
                  <h5>PCR of C0061,B0015 and micF</h5>
 +
                  <p>material:</p>
 +
                  <p>C0061 plasmid: 477.1 ng/uL(diluted 20-folds)</p>
 +
                  <p>B0015 PCR product:7.3 ng/uL</p>
 +
                    <p>micF-1 PCR product:13.4 ng/uL</p>
 +
                  <p>ForB0015 Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>B0015-F</td>
 +
                        <td>cca ggc atc aaa taa aac gaa agg</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R(I)</td>
 +
                        <td>gcc gct act agt ata taa acg cag aaa ggc cca cc</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>protocol:</p>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl Primer-Fd</li>
 +
                    <li>1μl Primer-Rv</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>1uL C0061 plasmid,4uL B0015 plasmid,2uL plasmid</li>
 +
                    <li>(13.35-X)μl ddH2O</li>
 +
                  </ul>
 +
                  <p>Renaturation at 55℃, extend for 1min</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-25 00:00"><span>2015</span> <span>25/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>PCR of C0061,B0015,R0062,R0010 and C0062 </h5>
 +
                  <p>material:</p>
 +
                  <p>C0061 plasmid:477.1 ng/uL(0.2 uL)</p>
 +
                  <p>B0015 plasmid:19 ng/uL(3 uL)</p>
 +
                  <p>R0062 plasmid:143.3 ng/uL(0.5 uL)</p>
 +
                  <p>C0051 plasmid:171.7 ng/uL(0.5 uL)</p>
 +
                  <p>R0010 plasmid:357.7 ng/uL(diluted 10-folds,1 uL)</p>
 +
                  <p>C0062 plasmid:739.4 ng/uL(diluted 10-folds,1uL)</p>
 +
                  <p> for R0062.R0010 and C0062Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>R0062-F</td>
 +
                        <td>gcg gcc gct tct aga ctg tag gat cg</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0062-C0051-R</td>
 +
                        <td>tgt gct cat ata aat ttt ctc ttt cta gat ttt att cga c</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>backbone-R0010-F</td>
 +
                        <td>ccgctt cta gag cca tac gca aac cgc ctc tc</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0062-B0034-R</td>
 +
                        <td>cta gtg tc agt aat aaa ttt tct cct ctt tg tgt gaa att gt</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0034-C0062-F</td>
 +
                        <td>tat tac tga gca cta gat gaa aaa cat aaa tgc cga c</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-C0062-R</td>
 +
                        <td>atg cct vggc tct agt gat cta cac tag cac t</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>protocol:</p>
 +
                  <ul>
 +
                    <li>2μl Taq buffer with KCl</li>
 +
                    <li>0.4μl dNTPs</li>
 +
                    <li>1μl Primer-Fd</li>
 +
                    <li>1μl Primer-Rv</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>2μl MgCl2</li>
 +
                    <li>XuL plasmid</li>
 +
                    <li>(13.35-X)μl ddH2O</li>
 +
                  </ul>
 +
                  <p>Renaturation at 55℃, extend for 1min</p>
 +
                  <p>PS:</p>
 +
                  <p>C0061:656bp B0015:142bp R0062:104bp</p>
 +
                  <p>C0051:803bp C0062:813bp R0010:243bp</p>
 +
                  <h5>Characterization of micF and SoxS by Gel Electrophoresis</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/13/Ustc-gel8.jpg" alt="图片名称"></p>
 +
                  <p>micF were successfully PCRed.</p>
 +
                  <h5>Characterization of pSB1C3 and SoxS by Gel Electrophoresis</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/5/59/Ustc-gel9.jpg" alt="图片名称"></p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-26 00:00"><span>2015</span> <span>26/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Characterization of R0051, C0061 and C0051 by Gel Electrophoresis</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/2/2f/Ustc-gel10.jpg" alt="图片名称"></p>
 +
                  <h5>Plasimid Extraction for pSB1C3 and C0061</h5>
 +
                  <p>Procedure including:</p>
 +
                  <p>1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</p>
 +
                    <p>2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</p>
 +
                    <p>3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</p>
 +
                  <p>4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</p>
 +
                  <p>5.Centrifuge tubes at 12,000xg about 10 mins.</p>
 +
                  <p>6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</p>
 +
                  <p>7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</p>
 +
                  <p>8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</p>
 +
                  <p>9.Do the step 8 again.</p>
 +
                  <p>10.Centrifuge the empty columns at 12,000xg about 1 min.</p>
 +
                  <p>11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: R0051, C0051 and C0061</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <h5>Characterization of B0015 and R0051 by Gel Electrophoresis</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/e/e6/Ustc-gel11.jpg" alt="图片名称"></p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-27 00:00"><span>2015</span> <span>27/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Overlap Circuit</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/a/a0/Sensing_Promoter-ustc.png" alt="图片名称"></p>
 +
                  <p>This sensing circuit including promoter micF and SoxS.</p>
 +
                  <h5>Overlapping Fragments</h5>
 +
                  <p>In order to ligate the fragements micF or SoxS, C0061 and B0015, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/0/0b/Ustc-fomula1.gif" alt="图片名称"></p>
 +
                  <p>among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>According to our sample extracted from PCR and calculation, ingradients characterize as below:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Concentration(ng/uL)</th>
 +
                        <th>Length(bp)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>micF</td>
 +
                        <td>12.6</td>
 +
                        <td>358</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>SoxS</td>
 +
                        <td>27.5</td>
 +
                        <td>705</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061(LuxI)</td>
 +
                        <td>18.5</td>
 +
                        <td>656</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015(Terminator)</td>
 +
                        <td>9.5</td>
 +
                        <td>143</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Total</td>
 +
                        <td></td>
 +
                        <td>1161</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>The theoratical volumn proportion is: </p>
 +
                  <ul>
 +
                    <li>SoxS-C0061-B0015: 5: 7: 3</li>
 +
                    <li>micF-C0061-B0015: 5.5: 7: 3</li>
 +
                  </ul>
 +
                  <p>Firstly, to ligate these parts, we need 10 cycles without primer:</p>
 +
                  <p>for circuit SoxS-C0061-B0015:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>SoxS</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061</td>
 +
                        <td>7</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>3</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP</td>
 +
                        <td>0.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>0.35</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for circuit micF-C0061-B0015:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>micF</td>
 +
                        <td>5.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061</td>
 +
                        <td>7</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>3</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP</td>
 +
                        <td>0.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>Then, we extracted 5 ul as template, and 15 ul adding with primer:</p>
 +
                  <p>Primers were synthesized from <em>Sangon Biotech. Co.,Ltd.</em></p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>micF-F</td>
 +
                        <td>GCGGCCGCTTCTAGAGCCTCATTAATCAGTCGGC</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R</td>
 +
                        <td>GCCGCTACTAGTATATAAACGCAG</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>BB-SoxS-F</td>
 +
                        <td>CGGCCGCTTCTAGAGCGTGCGGAACATTCG</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>5ul-template protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Template</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP</td>
 +
                        <td>0.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-F(BB-SoxS-F)</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>8.35</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>15ul-protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Solution</td>
 +
                        <td>15</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-F(BB-SoxS-F)</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of Five Parts</h5>
 +
                  <p>material:</p>
 +
                  <p>R0010 plasmid:193.1ng/uL</p>
 +
                  <p>C0062 plasmid:952.5ng/uL</p>
 +
                    <p>B0015 plasmid:93ng/uL</p>
 +
                      <p>R0062 plasmid:143.3ng/uL</p>
 +
                  <p>For R0051 Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <p>protocol:</p>
 +
                  <ul>
 +
                    <li>2uL 10X buffer with KCl</li>
 +
                    <li>0.4uL dNTP</li>
 +
                    <li>1uL primers-F</li>
 +
                    <li>1uL primers-R</li>
 +
                    <li>0.25uL Taq Polymerase</li>
 +
                    <li>2uL MgCl2</li>
 +
                    <li>1uL plasmid</li>
 +
                    <li>12.35 uL ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Overlap PCR of bacteria III</h5>
 +
                  <p>material:</p>
 +
                  <ul>
 +
                    <li>R0062 PCR product:21.2 ng/uL</li>
 +
                    <li>C0051 PCR product:22.8 ng/uL</li>
 +
                    <li>B0015 PCR product:24.6 ng/uL</li>
 +
                  </ul>
 +
                  <p>protocol:</p>
 +
                  <p>total volume 20 uL </p>
 +
                  <ul>
 +
                    <li>R0062(104bp) 1 uL</li>
 +
                    <li>C0051(803bp) 8 uL</li>
 +
                    <li>B0015(153bp) 1.5uL</li>
 +
                    <li>ddH2O 4.85 uL</li>
 +
                    <li>buffer 2uL</li>
 +
                    <li>dNTP 0.4uL</li>
 +
                    <li>Taq polymerase 0.25uL</li>
 +
                    <li>MgCl2 2uL</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>After the 10 cycles,we divide the 20 ul system into two parts:5ul and 15ul.The 5ul PCR product will be used as template in another new 20ul system.On the other hand, add primers</p>
 +
                  <p>(R0062-F primer 1uL;C0062-B0015-R(I) primer 1uL)to the remaining 15 uL PCR product.</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>Result:</p>
 +
                  <p> we don't get the product we want.We guess the templates are not the right products,maybe they have mutations .So we decide to do the overlap PCR of bateriaI to test whether the method is suitable.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-28 00:00"><span>2015</span> <span>28/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Plasmid Extraction of gRNA-AcrB and gRNA-EmrE</h5>
 +
                  <p>Procedure including:</p>
 +
                  <ol>
 +
                    <li>1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                    <li>2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                    <li>3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                    <li>4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                    <li>5.Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                    <li>6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                    <li>7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                    <li>8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                    <li>9.Do the step 8 again.</li>
 +
                    <li>10.Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                    <li>11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </li>
 +
                  </ol>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: R0061</p>
 +
                  <h5><em>Case 1: Sangon Biotech.</em></h5>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <h5><em>Case 2: Axygen</em></h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add 400~600 ul Buffer DE-A and then incubate the EP tubes in thermostat water bath about 75 degree centigrade within 10 mins. </li>
 +
                    <li>After gel is all dissolved, add 1/3 volumn of Buffer DE-B into EP tubes. The solution will turn yellow, illustrating complete dissolved.</li>
 +
                    <li>Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul Buffer W1 in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Add 700 ul Buffer W2 in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <h5>Overlapping Fragments</h5>
 +
                  <p>We conduct the overlapping again.</p>
 +
                  <p>However, the sample has a little difference. The concentration of micF changes to 58.7ng/uL. According to our sample extracted from PCR and calculation, ingradients characterize as below:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Concentration(ng/uL)</th>
 +
                        <th>Length(bp)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>micF</td>
 +
                        <td>57.8</td>
 +
                        <td>358</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>SoxS</td>
 +
                        <td>27.5</td>
 +
                        <td>705</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061(LuxI)</td>
 +
                        <td>18.5</td>
 +
                        <td>656</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015(Terminator)</td>
 +
                        <td>9.5</td>
 +
                        <td>143</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Total</td>
 +
                        <td></td>
 +
                        <td>1161</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>The theoratical volumn proportion is: </p>
 +
                  <ul>
 +
                    <li>SoxS-C0061-B0015: 5: 7: 3</li>
 +
                    <li>micF-C0061-B0015: 1.3: 7: 3</li>
 +
                  </ul>
 +
                  <p>Firstly, to ligate these parts, we need 10 cycles without primer:</p>
 +
                  <p>for circuit SoxS-C0061-B0015:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>SoxS</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061</td>
 +
                        <td>7</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>3</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP</td>
 +
                        <td>0.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>0.35</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for circuit micF-C0061-B0015:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>micF</td>
 +
                        <td>1.3</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061</td>
 +
                        <td>7</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>3</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP</td>
 +
                        <td>0.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>4.1</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>Primers are the same as before.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Template</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP</td>
 +
                        <td>0.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-F(BB-SoxS-F)</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>8.35</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>15ul-protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Solution</td>
 +
                        <td>15</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-F(BB-SoxS-F)</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015-R</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer with KCl</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of Cas9(80l)</h5>
 +
                  <p>material:</p>
 +
                  <p>8 uL buffer with KCl</p>
 +
                  <p>35 uL dd water</p>
 +
                  <p>8 uL Plasmid with Cas9</p>
 +
                    <p>4 uL primer R</p>
 +
                      <p>4 uL primer F</p>
 +
                      <p>8 uL MgCl2</p>
 +
                      <p>8 uL dNTPs</p>
 +
                      <p>5 uL DMSO</p>
 +
                      <p>1 uL Tap polymerase</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/6/60/USTC_notebook_7283.png" alt="图片名称"></p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-29 00:00"><span>2015</span> <span>29/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Negative Chemotaxis Characterization</h5>
 +
                  <p>Done by Wang Luyao</p>
 +
                  <p><em>Term 1 results</em></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/9/9b/Ustc-chmo1.JPG" alt="IMG_3119.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/b/b2/Ustc-chemo2.JPG" alt="IMG_3117.JPG"></p>
 +
                  <p> I put the paper on this plate after the E.coli grows homogeneously, so let's see the result later.</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/7/7d/Ustc-chemo3.JPG" alt="IMG_3121.JPG"></p>
 +
                  <p>the controlled plate</p>
 +
                  <p>the last plate was contaminated</p>
 +
                  <p><em>Term 2</em></p>
 +
                  <p>material:</p>
 +
                  <p>LB solid medium plates x6</p>
 +
                  <p>0.8、0.6、0.4、0.2、0.1g/ml Chloramphenicol</p>
 +
                  <p>E.coli Top10</p>
 +
                  <p>filter paper</p>
 +
                  <h5>Enzyme Digestion</h5>
 +
                  <p>Performing twice separately</p>
 +
                  <p>Both as following protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>pSB1C3</td>
 +
                        <td>10</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>XbaI</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>SpeI</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>green buffer</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>6</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <h5>Overlap PCR of bacteriaI</h5>
 +
                  <p>material:</p>
 +
                  <ul>
 +
                    <li>micF PCR product :33.6ng/uL</li>
 +
                    <li>C0061 PCR product: 18.5ng/uL</li>
 +
                    <li>B0015 PCR product:9.2ng/uL</li>
 +
                    <li>micF-F primer</li>
 +
                    <li>B0015-R primer</li>
 +
                  </ul>
 +
                  <p>protocol:</p>
 +
                  <p>total volume: 25uL</p>
 +
                  <ul>
 +
                    <li>Taq Master Mix 12.5uL</li>
 +
                    <li>micF 2uL</li>
 +
                    <li>C0061 6uL</li>
 +
                    <li>B0015 2.6uL</li>
 +
                    <li>ddH2O 1.9uL</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 90s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>After the 10 cycles,we divide the 20 ul system into two parts:5ul and 15ul.The 5ul PCR product will be used as template in another new 20ul system.On the other hand, add primers</p>
 +
                  <p>to the remaining 15 uL PCR product.</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 90s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>Results:</p>
 +
                  <p>We don't get the product we want.We make some research and guess that the probable reasons are the following:Taq polymerase can cause 3'd A to PCR product;the annealing temperature is unsuitable;the length of overlap fragment isn't enough .</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-30 00:00"><span>2015</span> <span>30/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Negative Chemotaxis Characterization</h5>
 +
                  <p>Done by Wang Luyao</p>
 +
                  <p>7.30</p>
 +
                  <p><em>Term 2 results</em></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/e/e6/Ustc-chemo4.JPG" alt="ee 001.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/8/8d/Ustc-chemo5.JPG" alt="qqwqw 003.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/5/55/Ustc-chemo6.JPG" alt="ee 002.JPG"></p>
 +
                  <p>The 0.8、0.6、0.4 plates just look similar, the denser Chloramphenicol the paper hold, the bigger the clear zone is.</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/b/b8/Ustc-chemo7.JPG" alt="https://attachments.tower.im/tower/2c1b10f8c093490f8d3036cbb803ddfc?version=auto&filename=IMG_3125.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/1c/Ustc-chemo8.JPG" alt="IMG_3126.JPG"></p>
 +
                  <p>but the 0.2 and 0.1g/ml plates are different, Top10 grows denser on the edge of the clear zone, I supposed it can show that E.coli has moved. So next time I'll try under 0.2g/ml.</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/f/f9/Ustc-chemo9.JPG" alt="IMG_3128.JPG"></p>
 +
                  <p>The controlled plate</p>
 +
                  <h5>PCR of C0062 and R0010</h5>
 +
                  <p>material:</p>
 +
                  <ul>
 +
                    <li>10 ul Taq PCR Master Mix</li>
 +
                    <li>7 ul ddH2O</li>
 +
                    <li>1 ul Primer F</li>
 +
                    <li>1 ul Primer R</li>
 +
                    <li>1 ul C0062 or R0010</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-07-31 00:00"><span>2015</span> <span>31/7</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Negative Chemotaxis Characterization</h5>
 +
                  <p>Done by Wang Luyao</p>
 +
                  <p><em>Term 3</em>, material:</p>
 +
                  <ul>
 +
                    <li>
 +
                      <p>LB solid medium plates x5</p>
 +
                    </li>
 +
                    <li>
 +
                      <p>0.2、0.1、0.05、0.025g/ml Chloramphenicol</p>
 +
                    </li>
 +
                    <li>
 +
                      <p>E.coli Top10</p>
 +
                    </li>
 +
                    <li>
 +
                      <p>filter paper</p>
 +
                    </li>
 +
                  </ul>
 +
                  <h5>PCR of micF, SoxS, C0061 and R0015</h5>
 +
                  <p>material(volume 50uL):</p>
 +
                  <ul>
 +
                    <li>25 ul Taq PCR Master Mix</li>
 +
                    <li>15 ul ddH2O</li>
 +
                    <li>2.5 ul Primer F</li>
 +
                    <li>2.5 ul Primer R</li>
 +
                    <li>2.5 ul Top10 culture, Top10 culture, C0061 or R0015</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of tRNA</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>tRNA-F</td>
 +
                        <td>GAATTCGCGGCCGCTTCTAGATAATACGACTCACTATAGGGAATACAAGCTACTTGTTCTTTTTGCAATGGACGAGTTCGAAATGATT</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>tRNA-R</td>
 +
                        <td>CTGCAGCGGCCGCTACTAGTTTACAGACGTTTGCGAATTG</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>tRNA-F2</td>
 +
                        <td>TTTAATCCCCGTCCACTGGGTAATACGACTCACTATAGGGAATAC</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Protocol (volume 20uL):</p>
 +
                  <ul>
 +
                    <li>2 ul Taq Buffer</li>
 +
                    <li>0.4 ul dNTP</li>
 +
                    <li>1 ul tRNA-F</li>
 +
                    <li>1 ul tRNA-R</li>
 +
                    <li>0.25 ul Taq DNA Polymerase</li>
 +
                    <li>2 ul MgCl2</li>
 +
                    <li>1 ul tRNA</li>
 +
                    <li>12.35 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>Protocol (volume 20uL):</p>
 +
                  <ul>
 +
                    <li>2 ul Taq Buffer</li>
 +
                    <li>0.4 ul dNTP</li>
 +
                    <li>1 ul tRNA-F2</li>
 +
                    <li>1 ul tRNA-R</li>
 +
                    <li>0.25 ul Taq DNA Polymerase</li>
 +
                    <li>2 ul MgCl2</li>
 +
                    <li>1 ul tRNA</li>
 +
                    <li>12.35 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>25 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>Result</p>
 +
                  <p>Only one sample get PCR product, concentration 441ng/μL. tRNA-F2 dosen't work for wrong template.</p>
 +
                  <p>Remember to review gene map before experiments!</p>
 +
                  <h5>PCR of cheZ</h5>
 +
                  <p>material:</p>
 +
                  <p>Top 10 Bacterial Solution</p>
 +
                  <p>Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>cheZ-F</td>
 +
                        <td>GTGCAATTGATCCAGGAGCTCAGCCAGGC</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ-T7-R</td>
 +
                        <td>GCTCCTGGATCAATTGCACATAAATTTTCTCCTCTTTTGCAAAAAGAA</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for cheZ (~600bp)</p>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>2.5 μl Taq buffer with KCl</li>
 +
                    <li>2.5 μl dNTPs</li>
 +
                    <li>0.75 μl cheZ-F Primer</li>
 +
                    <li>0.75 μl cheZ-T7-R Primer</li>
 +
                    <li>0.5 μl Kod DNA Polymerase(600bp/min)</li>
 +
                    <li>1.0 μl MgCl2</li>
 +
                    <li>2 uL Top10 Solution</li>
 +
                    <li>15 μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min 30s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 2min(C0061)or 1min(B0015 and R0062)</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>It turned out we used wrong primer:(</p>
 +
                  <h5>PCR of CheZ and B0015</h5>
 +
                  <p>material:</p>
 +
                  <ul>
 +
                    <li>TOP 10 baterial solution</li>
 +
                    <li>PAO1 bacterial solution </li>
 +
                    <li>B0015 plasmid :93.0 ng/uL</li>
 +
                  </ul>
 +
                  <p>protocol:</p>
 +
                  <p>total system 25uL</p>
 +
                  <ul>
 +
                    <li>buffer 2.5 uL</li>
 +
                    <li>dNTPs 2.5uL</li>
 +
                    <li>MgSO4 2uL</li>
 +
                    <li>primer-F 0.75 uL</li>
 +
                    <li>primer-R 0.75 uL</li>
 +
                    <li>bacterial solution/plasmid 1uL</li>
 +
                    <li>KOD-Plus enzyme 0.5uL</li>
 +
                    <li>ddH2O 17uL</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 2min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 15s; annealing(55 degree celcius, 30s and elongation(68 degree celcius 50s)</li>
 +
                    <li>Elongation for whole at 68 degree celcius 7min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>The protocol is from lab319,the enzyme is KOD-Plus.</p>
 +
                  <p>Result:</p>
 +
                  <p> We don't get the product we want .It turned out because of wrong primer we implemented.</p>
 +
                  <h5>Transformation of C0062</h5>
 +
                  <p>the protocol as following</p>
 +
                  <ol>
 +
                    <li>Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved</li>
 +
                    <li>Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.</li>
 +
                    <li>Put the tubes on the ice about 30 mins.</li>
 +
                    <li>Make a heat shock at 42 degree centigrade about 60 sec</li>
 +
                    <li>Put the tubes on the ice about 3 mins again.</li>
 +
                    <li>Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.</li>
 +
                    <li>Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.</li>
 +
                    <li>Discard the supernatant liquid and leave about 100ul medium.</li>
 +
                    <li>Coat plate: add 100ul solution in a plate</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-01 00:00"><span>2015</span> <span>1/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Negative Chemotaxis Characterzation</h5>
 +
                  <p>Done by Wang Luyao</p>
 +
                  <p><em>Term 3 results</em></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/9/98/Ustc-chemo10.JPG" alt="qqqq 031.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/d/db/Ustc-chemo11.JPG" alt="qqqq 032.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/3/3a/Ustc-chemo12.JPG" alt="qqqq 033.JPG"></p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/2/20/Ustc-chemo13.JPG" alt="qqqq 034.JPG"></p>
 +
                  <p>this time I got the similar results, but I cannot tell whether the bacteria is moved or didn't grow up.</p>
 +
                  <p>so let's see the term 1 result:</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/9/92/Ustc-chemo14.JPG" alt="qqwqw 002.JPG"></p>
 +
                  <p> I put the paper on this plate after the E.coli grows homogeneously. Now after I took it out I got this.</p>
 +
                  <p>It's obviously that the bacteria moved. If E.coli died, the medium cannot be clear, the bodies will stay. In the middle of the area, there was a bubble formed by the medium and the wet paper. There is dilute Chloramphenicol, so the some bacteria moved there.</p>
 +
                  <p>So we qualitatively proved that E.coli negative chemotaxis !!!</p>
 +
                  <h5>PCR of cheZ</h5>
 +
                  <p>Material:</p>
 +
                  <p>Top 10 Bacterial Solution</p>
 +
                  <p>Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>cheZ-F</td>
 +
                        <td>GTGCAATTGATCCAGGAGCTCAGCCAGGC</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>che-Ter-R</td>
 +
                        <td>TTTATTTGATGCCTGGCTCTAGTATCAGAAACCCAGGCTGGACA</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for cheZ (~600bp)</p>
 +
                  <p>Protocol as this:</p>
 +
                  <ul>
 +
                    <li>5 μl Taq buffer with KCl</li>
 +
                    <li>1 μl dNTPs</li>
 +
                    <li>2.5 μl cheZ-F Primer</li>
 +
                    <li>2.5 μl che-Ter-R Primer</li>
 +
                    <li>0.65 μl Pfu DNA Polymerase(600bp/min)</li>
 +
                    <li>5 μl MgCl2</li>
 +
                    <li>2.5 uL Top10 Solution</li>
 +
                    <li>31 μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min 30s)
 +
                      <br>1.Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p><em>No results: May be because of Pfu enzyme has already been out of date.</em></p>
 +
                  <p>Protocol again:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>2X Taq Master Mix</td>
 +
                        <td>25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>che-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Top10 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>15</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>2X Taq Master Mix</td>
 +
                        <td>25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>che-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Top10 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>12.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p><em>No results:it turns out cheZ sequence in TOP10 is different from PAO1, we designed after PAO1</em></p>
 +
                  <p>Protocol again:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>2X Taq Master Mix</td>
 +
                        <td>25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>che-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>PAO1 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>15</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Taq buffer with KCl</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTPs</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>che-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>PAO1 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>28.35</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.65</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of tRNA</h5>
 +
                  <p>Protocol (volume 20uL):</p>
 +
                  <ul>
 +
                    <li>2 ul Taq Buffer</li>
 +
                    <li>0.4 ul dNTP</li>
 +
                    <li>1 ul tRNA-F2</li>
 +
                    <li>1 ul tRNA-R</li>
 +
                    <li>0.25 ul Taq DNA Polymerase</li>
 +
                    <li>2 ul MgCl2</li>
 +
                    <li>1 ul tRNA</li>
 +
                    <li>12.35 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Extraction of tRNA</h5>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Add 1.5mL Buffer B2 and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 10 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>Result</p>
 +
                  <p>Concentration 64ng/ul.</p>
 +
                  <h5>PCR of CheZ</h5>
 +
                  <p>material:</p>
 +
                  <p>Top 10 Bacterial Solution</p>
 +
                  <p>protocol:</p>
 +
                  <p>total system 25uL</p>
 +
                  <ul>
 +
                    <li>buffer 2.5 uL</li>
 +
                    <li>dNTPs 2.5uL</li>
 +
                    <li>MgSO4 3uL</li>
 +
                    <li>primer-F 0.75 uL</li>
 +
                    <li>primer-R 0.75 uL</li>
 +
                    <li>bacterial solution/plasmid 1uL</li>
 +
                    <li>KOD-Plus-Neo enzyme 0.5uL</li>
 +
                    <li>ddH2O 16uL</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 2min</li>
 +
                    <li>35 cycles containing: degradation(98 degree celcius, 10s; annealing(55 degree celcius, 30s and elongation(68 degree celcius 30s)</li>
 +
                    <li>Elongation for whole at 68 degree celcius 7min.</li>
 +
                    <li>4 celcius degree for preserveation.
 +
                      <br>The protocol is from lab 319.</li>
 +
                  </ol>
 +
                  <h5>PCR of T7 promoter</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>T7-F</td>
 +
                        <td>GAATTCGCGGCCGCTTCTAG</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-R2</td>
 +
                        <td>agacatgcaatttttttcattccgattttctcctcttttgcaaaaagaacaagtagct</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7 Promoter1</td>
 +
                        <td>GAATTCGCGGCCGCTTCTAGAtaatacgactcactatagggaatacaagctacttgttctttttgca</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7 Promoter2</td>
 +
                        <td>tgcaaaaagaacaagtagcttgtattccctatagtgagtcgtattaTCTAGAAGCGGCCGCGAATTC</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Protocol (volume 20uL):</p>
 +
                  <ul>
 +
                    <li>10 ul Mix</li>
 +
                    <li>1 ul T7-F</li>
 +
                    <li>1 ul T7-R2</li>
 +
                    <li>1 ul T7 Promoter1</li>
 +
                    <li>1 ul T7 promoter2</li>
 +
                    <li>6 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 30s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR Purification of T7</h5>
 +
                  <ol>
 +
                    <li>Add Buffer B3 in 5 times volumn of PCR product.</li>
 +
                    <li>Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>Result</p>
 +
                  <p>Concentration 28ng/ul.</p>
 +
                  <h5>PCR of T7 promoter</h5>
 +
                  <p>Conduct the PCR again.</p>
 +
                  <p>Protocol (volume 20uL):</p>
 +
                  <ul>
 +
                    <li>10 ul Mix</li>
 +
                    <li>1 ul T7-F</li>
 +
                    <li>1 ul T7-R2</li>
 +
                    <li>1 ul T7 Promoter1</li>
 +
                    <li>1 ul T7 promoter2</li>
 +
                    <li>6 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 30s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Seamless Clone of tRNA Plasmid</h5>
 +
                  <p>Protocol:</p>
 +
                  <ul>
 +
                    <li>8.5 ul Seamless cloning Master Mix</li>
 +
                    <li>3 ul linear PSB1C3 plasmid</li>
 +
                    <li>2 ul tRNA </li>
 +
                    <li>6.5 ul ddH2O
 +
                      <br>Incubate at 50℃ for 60min.</li>
 +
                  </ul>
 +
                  <h5>Seamless Clone of Anchor Plasmid</h5>
 +
                  <p>Protocol:</p>
 +
                  <ul>
 +
                    <li>8.5 ul Seamless cloning Master Mix</li>
 +
                    <li>3 ul linear PSB1C3 plasmid</li>
 +
                    <li>1 ul T7 promoter</li>
 +
                    <li>1 ul COMPX</li>
 +
                    <li>6.5 ul ddH2O
 +
                      <br>Incubate at 50℃ for 60min.</li>
 +
                  </ul>
 +
                  <h5>Transformation of tRNA Plasmid & Anchor Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>4000rpm centrifuge for 3min, discard 500ul supernate.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-02 00:00"><span>2015</span> <span>2/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Plasmid Extraction of C0061</h5>
 +
                  <p>Procedure including:</p>
 +
                  <ol>
 +
                    <li>Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                    <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                    <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                    <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                    <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                    <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                    <li>Do the step 8 again.</li>
 +
                    <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                    <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg. </li>
 +
                  </ol>
 +
                  <h5>PCR of cheZ and OprF from PAO1</h5>
 +
                  <p>Yesterday, we may extract cheZ from PAO 1, though with a lot of primer dimer. Today, DMSO will be implemented trying to eliminate these fragements.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Taq buffer with KCl</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTPs</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>PAO1 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>25.85</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.65</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Taq buffer with KCl</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTPs</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Opr-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>OprF-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>PAO1 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>25.85</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.65</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2 min 30 s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR Purification of T7</h5>
 +
                  <ol>
 +
                    <li>Add Buffer B3 in 5 times volumn of PCR product.</li>
 +
                    <li>Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: OprF, cheZ</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <h5>Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA</h5>
 +
                  <p>Protocol(volume 20ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-F Primer</li>
 +
                    <li>1μl COMPX-R or tRNA-R Primer</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>7μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p><em>No Result.</em></p>
 +
                  <h5>Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA</h5>
 +
                  <p>Conduct the PCR again.</p>
 +
                  <p>Protocol(volume 20ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-F Primer</li>
 +
                    <li>1μl COMPX-R or tRNA-R Primer</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>7μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p><em>No Result.</em></p>
 +
                  <h5>PCR Purification of tRNA & COMPX</h5>
 +
                  <ol>
 +
                    <li>Add Buffer B3 in 5 times volumn of PCR product.</li>
 +
                    <li>Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>Result</p>
 +
                  <p>tRNA 26ng/ul, COMPX 24ng/ul.</p>
 +
                  <h5>Transformation of tRNA Plasmid & Anchor Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>4000rpm centrifuge for 3min, discard 500ul supernate.</li>
 +
                    <li>Spread half of the bacteria culture on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-03 00:00"><span>2015</span> <span>3/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA</h5>
 +
                  <p>Protocol(volume 20ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-F Primer</li>
 +
                    <li>1μl COMPX-R or tRNA-R Primer</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>7μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of OprF from PAO1</h5>
 +
                  <p>Yesterday, we may extract cheZ from PAO 1, though with a lot of primer dimer. Today, DMSO will be implemented trying to eliminate these fragements.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Taq buffer with KCl</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTPs</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Opr-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>OprF-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>PAO1 Solution</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>28.35</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>MgCl2</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.65</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of C0061</h5>
 +
                  <p>material(volume 100uL):</p>
 +
                  <ul>
 +
                    <li>6 ul MgCl2</li>
 +
                    <li>71 ul ddH2O</li>
 +
                    <li>4 ul Primer F</li>
 +
                    <li>4 ul Primer R</li>
 +
                    <li>2 ul dNTP</li>
 +
                    <li>1 ul Taq DNA polymerase</li>
 +
                    <li>10 ul 10*PCR Buffer</li>
 +
                    <li>2 ul C0061</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <p>1 Preheat: 94 degree celcius, 5min</p>
 +
                  <p>2 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)</p>
 +
                  <p>3 Elongation for whole at 72 degree celcius 1min</p>
 +
                  <p>4 4 celcius degree for preserveation.</p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: R0061</p>
 +
                  <p>Preparation:</p>
 +
                  <p>• Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                  <p>• Check out whether Buffer B2 has sediment.</p>
 +
                  <p>• Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <p>5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</p>
 +
                  <p>6 Measure out the weight of tubes of gel.</p>
 +
                  <p>7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</p>
 +
                  <p>8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.</p>
 +
                  <p>9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.</p>
 +
                  <p>10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</p>
 +
                  <p>11 Do the step 5 again.</p>
 +
                  <p>12 Centrifuge the empty columns at 9000xg about 1min.</p>
 +
                  <p>13 Open the columns and air them about 10 mins.</p>
 +
                  <p>14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</p>
 +
                  <h5>PCR for gRNA-AcrB and gRNA-EmrE</h5>
 +
                  <p>material:</p>
 +
                  <p>gRNA-AcrB plasmid(280.7 ng/uL)</p>
 +
                  <p>gRNA-EmrE plasmid(222.4 ng/uL)</p>
 +
                  <p>PCR protocol:</p>
 +
                  <p>For gRNA-AcrB and gRNA-EmrE, primers including gRNA-F, gRNA-R, protocol as following:</p>
 +
                  <ul>
 +
                    <li>10μl Taq Master Mix</li>
 +
                    <li>1μl gRNA-F Primer</li>
 +
                    <li>1μl gRNA-R Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>6.75μl ddH2O</li>
 +
                    <li>1μl gRNA-AcrB(or gRNA-EmrE) Plasmid</li>
 +
                  </ul>
 +
                  <p>For gRNA, Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>gRNA-F</td>
 +
                        <td>GCGTCTAGATTGACAGCTAGCTCAGTAGGTATAAT</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>gRNA-R</td>
 +
                        <td>TAGTAGGTCGTATTAAAAAAAAGCACCGAC</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>gRNA-AcrB and gRNA-EmrE</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/a/a9/USTC_notebook_803.png" alt="图片名称"></p>
 +
                  <h5>Gel Extraction of gRNA-AcrB and gRNA-EmrE</h5>
 +
                  <p>Material including: gRNA-AcrB and gRNA-EmrE</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>the concentration as following:</p>
 +
                  <p>gRNA-AcrB: 44 ng/uL</p>
 +
                  <p>gRNA-EmrE: 41 ng/uL</p>
 +
                  <h5>PCR for T7-tet Promoter</h5>
 +
                  <p>PCR protocol:</p>
 +
                  <p>For T7-tet promoter, primers including T7-tet-F, T7-tet-R, protocol as following:</p>
 +
                  <ul>
 +
                    <li>10μl Taq Master Mix</li>
 +
                    <li>1μl T7-tet-F Primer</li>
 +
                    <li>1μl T7-tet-R Primer</li>
 +
                    <li>1μl template-F Primer</li>
 +
                    <li>1μl template-R Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>5.75μl ddH2O</li>
 +
                  </ul>
 +
                  <p>Use template-F Primer and template-R Primer as templates</p>
 +
                  <p>For T7-tet, Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>template-F</td>
 +
                        <td>taatacgactcactatgatagaaaagaggagaaaatc</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>template-R</td>
 +
                        <td>gattttctcctcttttctatcatagtgagtcgtatta</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-tet-F</td>
 +
                        <td>Ttaatacgactcactatgatagaaaagaggag</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-tet-R</td>
 +
                        <td>gtatttcttatccattccgattttctcctcttttctat</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>T7-tet Promoter</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/a/aa/USTC_notebook_8031.png" alt="图片名称"></p>
 +
                  <h5>Gel Extraction of T7-tet Promoter</h5>
 +
                  <p>Material including: T7-tet Promoter</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>the concentration as following:</p>
 +
                  <p>T7-tet: 30 ng/uL</p>
 +
                  <h5>Seamless Clone of cheZ Plasmid and Circuit Containing E0040</h5>
 +
                  <p>Protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Fragements</th>
 +
                        <th>Length(bp)</th>
 +
                        <th>Mass Required(ug)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2070</td>
 +
                        <td>41.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7 Promoter</td>
 +
                        <td>46</td>
 +
                        <td>9.2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ</td>
 +
                        <td>683</td>
 +
                        <td>13.66</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>143</td>
 +
                        <td>2.86</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>3 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7 Promoter</td>
 +
                        <td>1ul(+3 folds ddH2O)</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>cheZ</td>
 +
                        <td>1ul(+1 fold ddH2O)</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>1ul(+9 folds ddH2O)</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>5.5ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Fragements</th>
 +
                        <th>Length(bp)</th>
 +
                        <th>Mass Required(ug)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2070</td>
 +
                        <td>41.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0061</td>
 +
                        <td>30</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>E0040</td>
 +
                        <td>720</td>
 +
                        <td>14.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>143</td>
 +
                        <td>2.86</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>3 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0061</td>
 +
                        <td>1ul(+20 fold ddH2O)</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>E0040</td>
 +
                        <td>1ul(+1 fold ddH2O)</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>1ul(+9 folds ddH2O)</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>5.5ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <h5>PCR for Cas9-PART I and Cas9-PART II</h5>
 +
                  <p>material:</p>
 +
                  <p>Cas9 plasmid(511.3 ng/uL)</p>
 +
                  <p>PCR protocol:</p>
 +
                  <p>For Cas9-PART I and Cas9-PART II, primers including Cas9-1-F, Cas9-1-R,Cas9-2-F, Cas9-2-R, protocol as following:</p>
 +
                  <ul>
 +
                    <li>10μl Taq Master Mix</li>
 +
                    <li>1μl Cas9-1-F(or Cas9-2-F) Primer</li>
 +
                    <li>1μl Cas9-1-R(or Cas9-2-R) Primer</li>
 +
                    <li>0.25μl Taq DNA Polymerase</li>
 +
                    <li>6.75μl ddH2O</li>
 +
                    <li>1μl Cas9 Plasmid</li>
 +
                  </ul>
 +
                  <p>For Cas9, Primers produced from Sangon Biotech Co.,Ltd.</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primer</th>
 +
                        <th>Sequence(5'-3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Cas9-1-F</td>
 +
                        <td>ggaatggataagaaatactcaataggcttag</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-1-R</td>
 +
                        <td>gctgtttcatcaccttatcatcaaaga</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-2-F</td>
 +
                        <td>gataaggtgatgaaacagcttaaacgtc</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-2-R</td>
 +
                        <td>ctactagtgggaccattcaaaacagcatagc</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>Cas9-PART I and Cas9-PART II</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/17/USTC_notebook_8034.png" alt="图片名称"></p>
 +
                  <h5>Gel Extraction of Cas9-PART I and Cas9-PART II</h5>
 +
                  <p>Material including: Cas9-PART I and Cas9-PART II</p>
 +
                  <p>Preparation:</p>
 +
                  <ol>
 +
                    <li>Check out whether ethyl alcohol is added into Wash Solution. </li>
 +
                    <li>Check out whether Buffer B2 has sediment. </li>
 +
                    <li>Adjust the thermostat water bath at 50 degree centigrade.</li>
 +
                  </ol>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers. </li>
 +
                    <li>Measure out the weight of tubes of gel. </li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins. </li>
 +
                    <li>Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2. </li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s. </li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution. </li>
 +
                    <li>Do the step 5 again. </li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min. </li>
 +
                    <li>Open the columns and air them about 10 mins. </li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min. </li>
 +
                    <li>Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.</li>
 +
                  </ol>
 +
                  <p>the concentration as following:</p>
 +
                  <p>Cas9-PART I : 31 ng/uL</p>
 +
                  <p>Cas9-PART II: 16 ng/uL</p>
 +
                  <h5>Seamless Clone of tRNA Plasmid</h5>
 +
                  <p>Protocol:</p>
 +
                  <ul>
 +
                    <li>8.5 ul Seamless cloning Master Mix</li>
 +
                    <li>3 ul linear PSB1C3 plasmid</li>
 +
                    <li>1 ul tRNA </li>
 +
                    <li>7.5 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Seamless Clone of Anchor Plasmid</h5>
 +
                  <p>Protocol:</p>
 +
                  <ul>
 +
                    <li>8.5 ul Seamless cloning Master Mix</li>
 +
                    <li>3 ul linear PSB1C3 plasmid</li>
 +
                    <li>1 ul T7 promoter</li>
 +
                    <li>1 ul COMPX</li>
 +
                    <li>6.5 ul ddH2O</li>
 +
                  </ul>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Transformation of tRNA Plasmid & Anchor Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-04 00:00"><span>2015</span> <span>4/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>PCR for micF and C0061</h5>
 +
                  <p>Protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingradients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>10X PCR buffer</td>
 +
                        <td>8</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTPs</td>
 +
                        <td>1.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-F</td>
 +
                        <td>4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-luxI-R</td>
 +
                        <td>4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Top10 Solution</td>
 +
                        <td>8</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>53.9</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingradients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>10X PCR buffer</td>
 +
                        <td>8</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTPs</td>
 +
                        <td>1.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061-F</td>
 +
                        <td>4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061-B0015-R</td>
 +
                        <td>4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061</td>
 +
                        <td>8</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>53.9</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 7 min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Seamless Clone of circuit I</h5>
 +
                  <p>material:</p>
 +
                  <p>pSB1C3(XbaI&SpeI digest) 2062bp 7.1ng/uL</p>
 +
                  <p>micF 402bp 58.7ng/uL</p>
 +
                  <p>C0061 656bp 27.4ng/uL</p>
 +
                  <p>B0015 142bp 7.1ng/uL</p>
 +
                  <p>seamless clone kit</p>
 +
                  <p>protocol:</p>
 +
                  <p>pSB1C3 12.4uL</p>
 +
                  <p>micF 0.5uL</p>
 +
                  <p>C0061 1.73uL</p>
 +
                  <p>B0015 1.46uL</p>
 +
                  <p>seamless clone mix 8.5uL</p>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Transformation of circuit I</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 3min.</li>
 +
                    <li>Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-05 00:00"><span>2015</span> <span>5/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Seamless Clone of circuit I</h5>
 +
                  <p>material:</p>
 +
                  <p>pSB1C3(XbaI&SpeI digest) 2062bp 7.1ng/uL</p>
 +
                  <p>micF 402bp 58.7ng/uL</p>
 +
                  <p>C0061 656bp 27.4ng/uL</p>
 +
                  <p>B0015 142bp 7.1ng/uL</p>
 +
                  <p>seamless clone kit</p>
 +
                  <p>protocol:</p>
 +
                  <p>pSB1C3 12.4uL</p>
 +
                  <p>micF 0.5uL</p>
 +
                  <p>C0061 1.73uL</p>
 +
                  <p>B0015 1.46uL</p>
 +
                  <p>seamless clone mix 8.5uL</p>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Transformation of circuit I</h5>
 +
                  <p>Protocol:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 3min.</li>
 +
                    <li>Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Transformation of pSB1C3</h5>
 +
                  <p>protocol:</p>
 +
                  <ol>
 +
                    <li>Add 2ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 3min.</li>
 +
                    <li>Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Double digest of pSB1C3</h5>
 +
                  <p>protocol:</p>
 +
                  <p>pSB1C3 plasmid solution 10ul</p>
 +
                  <p>XbaI 1ul</p>
 +
                  <p>SpeI 1ul</p>
 +
                  <p>Tango.buffer 2ul</p>
 +
                  <p>ddH2O 6ul</p>
 +
                  <p>incubate at 37℃ for 2 hours.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-06 00:00"><span>2015</span> <span>6/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA</h5>
 +
                  <p>Protocol(volume 20ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-F Primer</li>
 +
                    <li>1μl COMPX-R or tRNA-R Primer</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>7μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Colonial PCR of PSB1C3-T7-cheZ & PSB1C3-R0051-E0040-B0015</h5>
 +
                  <p>Protocol(volume 13.5ul)</p>
 +
                  <ul>
 +
                    <li>0.25μl Primer 1</li>
 +
                    <li>0.25μl Primer 2</li>
 +
                    <li>6.5μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>5.5μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Overlap Circuit of gRNA-Cas9</h5>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/4/47/USTC_notebook_8036.png" alt="图片名称"></p>
 +
                  <h5>Overlapping Fragments</h5>
 +
                  <p>In order to ligate the fragements gRNA-ArcB or gRNA-EmrE, T7-tet, Cas9-PART I and Cas9-PART II, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/0/0b/Ustc-fomula1.gif" alt="图片名称"></p>
 +
                  <p>among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>According to our sample extracted from PCR and calculation, ingradients characterize as below:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Concentration(ng/uL)</th>
 +
                        <th>Length(bp)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>gRNA-ArcB</td>
 +
                        <td>44</td>
 +
                        <td>162</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>gRNA-EmrE</td>
 +
                        <td>41</td>
 +
                        <td>162</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-tet</td>
 +
                        <td>30</td>
 +
                        <td>56</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-PART I</td>
 +
                        <td>31</td>
 +
                        <td>1954</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-PART II</td>
 +
                        <td>16</td>
 +
                        <td>2358</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Total</td>
 +
                        <td></td>
 +
                        <td>4530</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>The theoratical volumn proportion is: </p>
 +
                  <ul>
 +
                    <li>gRNA-ArcB-T7-tet-Cas9-PART I-Cas9-PART II : 2: 1: 31: 64</li>
 +
                    <li>gRNA-EmrE-T7-tet-Cas9-PART I-Cas9-PART II: 2: 1: 31: 64</li>
 +
                  </ul>
 +
                  <p>Firstly, to ligate these parts, we need 10 cycles without primer:</p>
 +
                  <p>for circuit gRNA-ArcB-T7-tet-Cas9-PART I-Cas9-PART II:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>gRNA-ArcB</td>
 +
                        <td>0.2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-tet</td>
 +
                        <td>0.1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-PART I</td>
 +
                        <td>3.1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-PART II</td>
 +
                        <td>6.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP(+MgCl2)</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>4.95</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for circuit gRNA-EmrE-T7-tet-Cas9-PART I-Cas9-PART II:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>gRNA-EmrE</td>
 +
                        <td>0.2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-tet</td>
 +
                        <td>0.1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-PART I</td>
 +
                        <td>3.1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-PART II</td>
 +
                        <td>6.4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP(+MgCl2)</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>1.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>4.7</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 6.5min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <p>Then, we extracted 5 ul as template, and 15 ul adding with primer:</p>
 +
                  <p>Primers were synthesized from <em>Sangon Biotech. Co.,Ltd.</em></p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Primers</th>
 +
                        <th>Sequence(5' to 3')</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>gRNA-F</td>
 +
                        <td>GCGTCTAGATTGACAGCTAGCTCAGTAGGTATAAT</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-2-R</td>
 +
                        <td>CTACTAATGGGACCATTCAAAACAGCATAGC</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>5ul-template protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Template</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Taq Polymerase</td>
 +
                        <td>0.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP(+MgCl2)</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>1.25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>7.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>gRNA-F</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-2-R</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>15ul-protocol:</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Name</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Solution</td>
 +
                        <td>15</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>gRNA-F</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Cas9-2-R</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>DMSO</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>10X buffer</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 6.5min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-07 00:00"><span>2015</span> <span>7/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Plasmid Extraction of Circuit 1, B0015, T7</h5>
 +
                  <p>Procedure including:</p>
 +
                  <p>1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</p>
 +
                  <p>2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</p>
 +
                  <p>3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</p>
 +
                  <p>4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</p>
 +
                  <p>5.Centrifuge tubes at 12,000xg about 10 mins.</p>
 +
                  <p>6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</p>
 +
                  <p>7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</p>
 +
                  <p>8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</p>
 +
                  <p>9.Do the step 8 again.</p>
 +
                  <p>10.Centrifuge the empty columns at 12,000xg about 1 min.</p>
 +
                  <p>11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.</p>
 +
                  <h5>Enzyme Digestion</h5>
 +
                  <p>Protocol:</p>
 +
                  <p>Name Volumn(uL)</p>
 +
                  <p>pSB1C3 10</p>
 +
                    <p>XbaI 1</p>
 +
                      <p>SpeI 1</p>
 +
                      <p>10* Buffer Tango 2</p>
 +
                      <p>ddH2O 15</p>
 +
                  <h5>Colonial PCR of PSB1C3-T7-COMPX</h5>
 +
                  <p>Protocol(volume 20ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-F Primer</li>
 +
                    <li>1μl COMPX-R </li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>7μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Double Digest of T7 Plasmid</h5>
 +
                  <p>Protocol (Volume 20ul)</p>
 +
                  <ul>
 +
                    <li>4ul Tango Buffer</li>
 +
                    <li>2ul BamHI</li>
 +
                    <li>2ul SalI</li>
 +
                    <li>10ul T7 Plasmid</li>
 +
                    <li>2ul ddH2O
 +
                      <br>Incubate at 37℃ for 3h.</li>
 +
                  </ul>
 +
                  <h5>Colonial PCR of PSB1C3-T7-COMPX</h5>
 +
                  <p>Conduct the PCR again.</p>
 +
                  <p>Protocol(volume 20ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-F Primer</li>
 +
                    <li>1μl COMPX-R </li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                    <li>7μl ddH2O</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Double Digest of T7 Plasmid</h5>
 +
                  <p>Protocol (Volume 20ul)</p>
 +
                  <ul>
 +
                    <li>4ul Tango Buffer</li>
 +
                    <li>2ul BamHI</li>
 +
                    <li>2ul SalI</li>
 +
                    <li>10ul T7 Plasmid</li>
 +
                    <li>2ul ddH2O</li>
 +
                    <li>Incubate at 37℃ overnight.</li>
 +
                  </ul>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-08 00:00"><span>2015</span> <span>8/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Seamless Clone of circuit I</h5>
 +
                  <p>material:</p>
 +
                  <p>pSB1C3(XbaI&SpeI digest) 2062bp 36.7ng/uL</p>
 +
                  <p>micF 402bp 39ng/uL</p>
 +
                  <p>SoxS 736bp 44.4ng/uL</p>
 +
                  <p>C0061 656bp 27.4ng/uL</p>
 +
                  <p>B0015 142bp 22ng/uL</p>
 +
                  <p>seamless clone kit</p>
 +
                  <p>protocol:</p>
 +
                  <p>pSB1C3 1.12uL</p>
 +
                  <p>micF 0.2uL or SoxS 0.33uL</p>
 +
                  <p>C0061 0.48uL</p>
 +
                  <p>B0015 0.14uL</p>
 +
                  <p>seamless clone mix 8.5uL</p>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Transformation of circuit I</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 3min.</li>
 +
                    <li>Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Colony PCR of Circuit I</h5>
 +
                  <p>pick 16 single colonies and shaking culture for 5 hours.</p>
 +
                  <p>protocol:</p>
 +
                  <ul>
 +
                    <li>6.5 ul Taq Master Mix</li>
 +
                    <li>5.5 ul ddH2O</li>
 +
                    <li>0.25 ul C0061-F primer</li>
 +
                    <li>0.25 ul C0061-B0015-R primer</li>
 +
                    <li>0.5 ul bacterial solution</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 95 degree celcius, 5min</li>
 +
                    <li>30 cycles containing: degradation(95 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 50 s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-10 00:00"><span>2015</span> <span>10/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>PCR of C0062</h5>
 +
                  <p>material(volume 100uL):</p>
 +
                  <ul>
 +
                    <li>6 ul MgCl2</li>
 +
                    <li>71 ul ddH2O</li>
 +
                    <li>4 ul Primer F</li>
 +
                    <li>4 ul Primer R</li>
 +
                    <li>2 ul dNTP</li>
 +
                    <li>1 ul pfu DNA polymerase</li>
 +
                    <li>10 ul 10*PCR Buffer</li>
 +
                    <li>2 ul C0062</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-11 00:00"><span>2015</span> <span>11/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Seamless Clone of pSB1C3-R0010-C0062-B0015</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0010</td>
 +
                        <td>0.4ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0062</td>
 +
                        <td>0.6ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>2.4ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>6.1ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 50 degree celcius 1 h.</p>
 +
                  <h5>Seamless Clone of pSB1C3-T7-COMPX</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7</td>
 +
                        <td>2ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>COMPX</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>6.5ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>COMPX</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>14.5ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 50 degree celcius 1 h.</p>
 +
                  <h5>Transformation of pSB1C3-T7-COMPX</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Enzyme Digestion of pSB1C3-T7-COMPX and pSB1C3-tRNA</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Tango Buffer</td>
 +
                        <td>2ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>plasmid</td>
 +
                        <td>10ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Spe I</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Xba I</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>6ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 37 degree celcius for 2 h.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-12 00:00"><span>2015</span> <span>12/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Transformation of pSB1C3-R0010-C0062-B0015</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Transformation of pSB3A3</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>Spread on plate with Ampcilin, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Plasmid Extraction of T7</h5>
 +
                  <p>Procedure including:</p>
 +
                  <ol>
 +
                    <li>Absorb 4.5 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</li>
 +
                    <li>Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</li>
 +
                    <li>Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</li>
 +
                    <li>Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</li>
 +
                    <li>Centrifuge tubes at 12,000xg about 10 mins.</li>
 +
                    <li>Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</li>
 +
                    <li>Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</li>
 +
                    <li>Do the step 8 again.</li>
 +
                    <li>Centrifuge the empty columns at 12,000xg about 1 min.</li>
 +
                    <li>Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.</li>
 +
                  </ol>
 +
                  <h5>PCR of OprF from PAO1</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>2XTaq Mix</td>
 +
                        <td>25</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>OprF-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>OprF-Ter-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>PAO1</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>17.5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-13 00:00"><span>2015</span> <span>13/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>Plasmid Extraction of R0062, B0015, SCVE, T7</h5>
 +
                  <p>Procedure including:</p>
 +
                  <p>1.Absorb 4.5 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.</p>
 +
                  <p>2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.</p>
 +
                  <p>3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.</p>
 +
                  <p>4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.</p>
 +
                  <p>5.Centrifuge tubes at 12,000xg about 10 mins.</p>
 +
                  <p>6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.</p>
 +
                  <p>7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.</p>
 +
                  <p>8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.</p>
 +
                  <p>9.Do the step 8 again.</p>
 +
                  <p>10.Centrifuge the empty columns at 12,000xg about 1 min.</p>
 +
                  <p>11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.</p>
 +
                  <h5>PCR of R0062, C0051, E0040, B0015</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 1</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 2</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Plasimid Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Pre-annealing of R0051</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>R0051-F1</td>
 +
                        <td>10</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>R0051-R1</td>
 +
                        <td>10</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate solution in 95 degree celcius 30 min and then used for PCR.</p>
 +
                  <h5>PCR of R0051, T7-OprF, T7-SCVE, SCVE, micF and soxS</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 1</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 2</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Plasimid Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of OprF, micF, SoxS</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 1</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 2</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Bacterial Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: R0061, E0040, B0015, T7-OprF</p>
 +
                  <p>Preparation:</p>
 +
                    <p>• Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>• Check out whether Buffer B2 has sediment.</p>
 +
                  <p>• Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <p>5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</p>
 +
                  <p>6 Measure out the weight of tubes of gel.</p>
 +
                  <p>7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</p>
 +
                  <p>8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.</p>
 +
                  <p>9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.</p>
 +
                  <p>10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</p>
 +
                  <p>11 Do the step 5 again.</p>
 +
                  <p>12 Centrifuge the empty columns at 9000xg about 1min.</p>
 +
                  <p>13 Open the columns and air them about 10 mins.</p>
 +
                  <p>14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</p>
 +
                  <h5>PCR of OprF, SoxS, micF</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 1</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 2</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Bactieral Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(<em>Temperature gradient: 48 degree celcius, 50 degree celcius, 53 degree celcius and 55 degree celcius</em> 30s) and elongation(72 degree celcius 2min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: T7-SCVE, SCVE</p>
 +
                  <p>Preparation:</p>
 +
                    <p>• Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>• Check out whether Buffer B2 has sediment.</p>
 +
                  <p>• Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <p>5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</p>
 +
                  <p>6 Measure out the weight of tubes of gel.</p>
 +
                    <p>7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</p>
 +
                      <p>8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.</p>
 +
                      <p>9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.</p>
 +
                      <p>10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</p>
 +
                      <p>11 Do the step 5 again.</p>
 +
                      <p>12 Centrifuge the empty columns at 9000xg about 1min.</p>
 +
                      <p>13 Open the columns and air them about 10 mins.</p>
 +
                      <p>14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min</p>
 +
                  <h5>Enzyme Digestion of pSB1C3</h5>
 +
                  <p>incubate at 37 degree celcius about 2 h</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Enzyme 1</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Enzyme 2</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>pSB1C3</td>
 +
                        <td>4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Tango Buffer</td>
 +
                        <td>4</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>10</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>strategy</th>
 +
                        <th>Enzyme 1</th>
 +
                        <th>Enzyme 2</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Strategy 1</td>
 +
                        <td>EcoRI</td>
 +
                        <td>PstI</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Strategy 2</td>
 +
                        <td>EcoRI</td>
 +
                        <td>SpeI</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Strategy 1</td>
 +
                        <td>XbaI</td>
 +
                        <td>PstI</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Strategy 2</td>
 +
                        <td>XbaI</td>
 +
                        <td>SpeI</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-14 00:00"><span>2015</span> <span>14/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>PCR of C0061, micF/SoxS-binding C0061</h5>
 +
                  <p>for C0061</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061-F</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061-B0015-RI</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Plasimid Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for micF-C0061</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-R-BB</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0034-C0061-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Plasimid Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>for SoxS-C0061</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>SoxS-R-BB</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0034-C0061-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Plasimid Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Seamless ligation of pSB1C3-T7-SCVE-B0015</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingradients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>pSB1C3</td>
 +
                        <td>1.2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T7-SCVE</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>SCVE</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Seamless Cloning mix</td>
 +
                        <td>8.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>to 20</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 50 degree celcuis 1 h</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-15 00:00"><span>2015</span> <span>15/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h5>PCR of OprF, SoxS</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 1</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Primer 2</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Bacterial Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>PCR of micF-C0061</h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>PCR Buffer</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF-F-BB</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0034-C0061-R</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Bacterial Solution</td>
 +
                        <td>2.5</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>31.9</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>Pfu Polymerase</td>
 +
                        <td>0.6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>dNTP mix</td>
 +
                        <td>5</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 94 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10 mins</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: micF, pSB1C3</p>
 +
                  <p>Preparation:</p>
 +
                    <p>• Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>• Check out whether Buffer B2 has sediment.</p>
 +
                  <p>• Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <p>5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</p>
 +
                  <p>6 Measure out the weight of tubes of gel.</p>
 +
                    <p>7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</p>
 +
                      <p>8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.</p>
 +
                      <p>9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.</p>
 +
                      <p>10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</p>
 +
                      <p>11 Do the step 5 again.</p>
 +
                      <p>12 Centrifuge the empty columns at 9000xg about 1min.</p>
 +
                      <p>13 Open the columns and air them about 10 mins.</p>
 +
                      <p>14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</p>
 +
                  <h5>Ligation of pSB1C3-tRNA</h5>
 +
                  <p>incubate at 16 degree celcius more than 20 h</p>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn(uL)</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>T4 DNA ligation Buffer</td>
 +
                        <td>2</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>T4 DNA ligase</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>pSB1C3 digested by EcoRI and PstI</td>
 +
                        <td>1</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>tRNA</td>
 +
                        <td>6</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>11</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <h5>Seamless Cloning of pSB1C3-micF-C0061-B0015 </h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>micF</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>C0061</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>B0015</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>6.5ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Seamless Cloning of pSB1C3-T7-COMPX </h5>
 +
                  <table>
 +
                    <thead>
 +
                      <tr>
 +
                        <th>Ingredients</th>
 +
                        <th>Volumn</th>
 +
                      </tr>
 +
                    </thead>
 +
                    <tbody>
 +
                      <tr>
 +
                        <td>Seamless cloning Master Mix</td>
 +
                        <td>8.5 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>linear PSB1C3 plasmid</td>
 +
                        <td>2 ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>COMPX</td>
 +
                        <td>1ul</td>
 +
                      </tr>
 +
                      <tr>
 +
                        <td>ddH2O</td>
 +
                        <td>8.5ul</td>
 +
                      </tr>
 +
                    </tbody>
 +
                  </table>
 +
                  <p>Incubate at 50℃ for 60min.</p>
 +
                  <h5>Transformation of pSB1C3-micF-C0061-B0015 and pSB1C3-T7-COMPX</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 500ul SOC culture, incubate at 37℃ for 45min.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                </div>
 +
              </li>
 +
            </ul>
 +
          </div>
 +
        </div>
 +
      </div>
 +
    </div>
  
<h4>Inspiration</h4>
+
    <div id="Daily-Notes-Stage-2" class="row">
<p>You can see what others teams have done to organize their notes:</p>
+
      <div class="card hoverable">
 +
        <div class="col s12">
 +
          <div class="card-content">
 +
            <ul class="cbp_tmtimeline">
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-08-17 00:00"><span>2015</span> <span>17/8</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h4>Construction of cheZ</h4>
 +
                  <h5>PCR of CheZ</h5>
 +
                  <p>CheZ:</p>
 +
                  <p>Material(volume 50ul)</p>
 +
                  <p>CheZ-BB-F:1ul</p>
 +
                  <p>CheZ-BB-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:21ul</p>
 +
                  <p>PAO1:2ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                  <p>25ul</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: Degradation(94 degree celcius, 30s; Annealing(55 degree celcius, 30s and elongation(72 degree celcius 1.5 min).</li>
 +
                    <li>Elongation for whole at 72 degree celcius 1min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>CheZ(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/8/8c/Ustc-chez.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: CheZ(PCR)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 6 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Double digest of CheZ and PSB1C3</h5>
 +
                  <p>Detect the concentration of CheZ:16.9ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <p>Material:</p>
 +
                  <p>CheZ:15ul</p>
 +
                  <p>EcoRI:1ul</p>
 +
                  <p>PstI:2ul</p>
 +
                  <p>Tango:2ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <p>Detect the concentration of PSB1C3:74.1ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <p>Material:</p>
 +
                  <p>PSB1C3:5ul</p>
 +
                  <p>EcoR1:1ul</p>
 +
                  <p>Pst1:2ul</p>
 +
                  <p>Tango:2ul</p>
 +
                  <p>ddH2O:10ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>CheZ(ep)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/5/58/Ustc-chezep.jpeg" alt="图片名称"></p>
 +
                  <p>PSB1C3(ep)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/2/20/Ustc-psb1c3_ep.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: CheZ(ep)</p>
 +
                  <p>Preparation:</p>
 +
                  <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                  <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Ligation of PSB1C3 and CheZ</h5>
 +
                  <p>In order to ligate the CheZ and PSB1C3, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                  <p>C1V1/n1=C2V2/n2=……=0.1~0.3</p>
 +
                  <p>Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>At first, we need the mass of PSB1C3 at 50ng. The concentrate of the plasmid we use is 8.4ng/ul while the one of the CheZ is 16.7ng/ul. So we choose to add 6ul into the reaction. Through the relation of the mole of DNA, we get the volume of the CheZ. </p>
 +
                  <p>Material:</p>
 +
                  <p>CheZ:4ul</p>
 +
                  <p>PSB1C3:6ul</p>
 +
                  <p>Solution I:10ul</p>
 +
                  <p>16℃ligate over night, prepare for the Transformation of the next day.</p>
 +
                  <h5>Transformation of CheZ and PSB1C3 Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture. </li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Colonial PCR of CheZ</h5>
 +
                  <p>Take one bacterial colony into 10ul H2O for the PCR.</p>
 +
                  <p>Protocol(volume 13ul)</p>
 +
                  <ul>
 +
                    <li>1μl CheZ-BB-F</li>
 +
                    <li>1μl CheZ-BB-R</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>Failed.</p>
 +
                  <p>However, we incubate two of the bacteria into 50ul centrifuge tube at 37℃, we find it grow well. </p>
 +
                  <h3 id="construction-of-t7-scve">Construction of T7-SCVE</h3>
 +
                  <h5>PCR of T7 and SCVE</h5>
 +
                  <p>Preparation:</p>
 +
                  <p>Add 10ul T7-F,10ul T7-R ,heating at 95 degree celcius for 30min and cool to 37 degree celcius.The mix will be used as template for the PCR.</p>
 +
                  <h5>Material(volume 50ul)</h5>
 +
                    <p>T7-exten-F:1ul</p>
 +
                    <p>T7-exten-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:18ul</p>
 +
                  <p>T7 as template:5ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                    <p>25ul</p>
 +
                    <h5>Material(volume 50ul)</h5>
 +
                    <p>SCVE-F:1ul</p>
 +
                  <p>SCVE-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:22ul</p>
 +
                  <p>SCVE plasmid:1ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                    <p>25ul</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.
 +
                      <br>Gel Electrophoresis Characterization
 +
                      <br>T7(PCR)</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>T7(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/7/7a/Ustc-T7.jpeg" alt="图片名称"></p>
 +
                  <p>SCVE(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/1d/Ustc-scve.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: T7,SCVE(PCR)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Double digest of T7 and SCVE</h5>
 +
                  <p>Detect the concentration of T7:35ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                    <p>Material:</p>
 +
                    <p>T7:15ul</p>
 +
                  <p>XbaI:1ul</p>
 +
                  <p>HindIII:2ul</p>
 +
                  <p>Tango:2ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <p>Detect the concentration of SCVE:7.8ng/ul</p>
 +
                  <p>volume:20ul</p>
 +
                  <p>Material:</p>
 +
                  <p>SCVE:15ul</p>
 +
                  <p>PstI:1ul</p>
 +
                  <p>HindIII:1ul</p>
 +
                  <p>bufferR:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <p>Detect the concentration of PSB1C3:160.2ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <h5>Material</h5>
 +
                  <p>PSB1C3:5ul</p>
 +
                  <p>XbaI:1ul</p>
 +
                  <p>Pst1:2ul</p>
 +
                  <p>Tango:2ul</p>
 +
                  <p>ddH2O:10ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>T7(ep)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/b/ba/USTC-t7_ep.jpeg" alt="图片名称"></p>
 +
                  <p>SCVE(ep)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/2/25/Ustc-scve_ep.jpeg" alt="图片名称"></p>
 +
                  <p>PSB1C3(xp)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/1e/Ustc-psb1c3_xp.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: T7,SCVE(ep)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Ligation of PSB1C3 ,T7 and SCVE</h5>
 +
                  <p>In order to ligate the T7,SCVE and PSB1C3, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                    <p>C1V1/n1=C2V2/n2=……=0.1~0.3</p>
 +
                      <p>Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>Material:</p>
 +
                  <p>T7:1ul</p>
 +
                  <p>SCVE:2ul</p>
 +
                  <p>PSB1C3:6ul</p>
 +
                  <p>Solution I:10ul</p>
 +
                  <p>16℃ligate over night, prepare for the Transformation of the next day.</p>
 +
                  <h5>Transformation of T7+SCVE Plasmid</h5>
 +
                    <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture.</li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Colonial PCR of T7+SCVE</h5>
 +
                  <p>Take one bacterial colony into 10ul H2O for the PCR.</p>
 +
                  <p>Protocol(volume 13ul)</p>
 +
                    <p>• 1μl T7-exten-F</p>
 +
                    <p>• 1μl T7-exten-R</p>
 +
                  <p>• 10μl Mix</p>
 +
                  <p>• 1μl Bacteria Clone</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation. </li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization<br>T7+SCVE</h5>
 +
                  <p>T7-SCVE(PCR detection)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/e/ed/Ustc-scve_jp_t7.jpeg" alt="图片名称"></p>
 +
                  <p>Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.</p>
 +
                  <h3 id="construction-of-t7-oprf">Construction of T7-OprF</h3>
 +
                  <h2 id="pcr-of-oprf">PCR of OprF</h2>
 +
                  <p>Material(volume 50ul)</p>
 +
                  <p>OprF-F:1ul</p>
 +
                  <p>OprF-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:21ul</p>
 +
                  <p>top10:2ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                  <p>25ul</p>
 +
                    <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.
 +
                      <br>the protocol of pcr of T7 is the same as the above</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>OprF(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/6/60/Ustc-oprf.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: OprF(PCR)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Double digest of T7 and OprF</h5>
 +
                  <p>Detect the concentration of T7:23ng/ul,OprF:40ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <p>Material:</p>
 +
                  <p>T7:15ul</p>
 +
                  <p>EcoRI:1ul</p>
 +
                  <p>NdeI:1ul</p>
 +
                  <p>bufferO:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <p>Material:</p>
 +
                  <p>OprF:15ul</p>
 +
                  <p>PstI:1ul</p>
 +
                  <p>NdeI:1ul</p>
 +
                  <p>bufferO:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <p>Detect the concentration of PSB1C3:160.2ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <h5>Material</h5>
 +
                  <p>PSB1C3:5ul</p>
 +
                  <p>EcoR1:1ul</p>
 +
                  <p>Pst1:2ul</p>
 +
                  <p>Tango:2ul</p>
 +
                  <p>ddH2O:10ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>OprF(ep)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/3/34/Ustc-oprf_ep_r0010.jpeg" alt="图片名称"></p>
 +
                  <p>T7(ep)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/b/ba/USTC-t7_ep.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: OprF(ep)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Ligation of T7,OprF and pSB1C3</h5>
 +
                  <p>In order to ligate the T7,OprF and PSB1C3, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                  <p>C1V1/n1=C2V2/n2=……=0.1~0.3</p>
 +
                  <p>Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>Material:</p>
 +
                  <p>T7:1ul</p>
 +
                  <p>OprF:2.5ul</p>
 +
                  <p>PSB1C3:6ul</p>
 +
                  <p>Solution I:10ul</p>
 +
                  <p>16℃ligate over night, prepare for the Transformation of the next day.</p>
 +
                  <h5>Transformation of T7+OprF Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture. </li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Colonial PCR of T7+OprF</h5>
 +
                  <p>Take one bacterial colony into 10ul H2O for the PCR.</p>
 +
                  <p>Protocol(volume 13ul)</p>
 +
                  <ul>
 +
                    <li>1μl T7-exten-F</li>
 +
                    <li>1μl OprF-R</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>T7-OprF</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/6/6d/Ustc-t7oprf_lac-chez.jpeg" alt="图片名称"></p>
 +
                  <p>Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.</p>
 +
                  <h3 id="construction-of-lac-chez">Construction of lac+cheZ</h3>
 +
                  <h5>PCR of lac and cheZ</h5>
 +
                  <p>Material(volume 50ul)</p>
 +
                  <p>EcoRI-lac-F:1ul</p>
 +
                  <p>NdeI-lac-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:22ul</p>
 +
                  <p>template:1ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                  <p>25ul</p>
 +
                  <p>Material(volume 50ul)</p>
 +
                  <p>NdeI-cheZ-F:1ul</p>
 +
                  <p>PstI-his-cheZ-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:22ul</p>
 +
                  <p>template:1ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                  <p>25ul</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.
 +
                      <br>the protocol of pcr of T7 is the same as the above</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>CheZ(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/3/3d/Ustc-chez2.jpeg" alt="图片名称"></p>
 +
                  <p>R0010(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/3/34/Ustc-oprf_ep_r0010.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: lac and cheZ(PCR)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Double digest of lac and cheZ</h5>
 +
                  <p>Detect the concentration of lac:45ng/ul cheZ:38ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <p>Material:</p>
 +
                  <p>R0010:15ul</p>
 +
                  <p>EcoRI:1ul</p>
 +
                  <p>NdeI:1ul</p>
 +
                  <p>bufferO:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <p>Material:</p>
 +
                  <p>cheZ:15ul</p>
 +
                  <p>PstI:1ul</p>
 +
                  <p>NdeI:1ul</p>
 +
                  <p>bufferO:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>R0010(np)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/3/31/Ustc-r0010.jpeg" alt="图片名称"></p>
 +
                  <p>CheZ(xn)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/1/1e/Ustc-psb1c3_xp.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: lac and cheZ(ep)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Ligation of lac ,cheZ and pSB1C3</h5>
 +
                  <p>In order to ligate the lac,cheZ and PSB1C3, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                  <p>C1V1/n1=C2V2/n2=……=0.1~0.3</p>
 +
                  <p>Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>Material:</p>
 +
                  <p>lac:0.5ul</p>
 +
                  <p>cheZ:3.0ul</p>
 +
                  <p>PSB1C3:6ul</p>
 +
                  <p>Solution I:10ul</p>
 +
                  <p>16℃ligate over night, prepare for the Transformation of the next day.</p>
 +
                  <h5>Transformation of lac+cheZ Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture. </li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <h5>Colonial PCR of lac+cheZ</h5>
 +
                  <p>Take one bacterial colony into 10ul H2O for the PCR.</p>
 +
                  <p>Protocol(volume 13ul)</p>
 +
                  <ul>
 +
                    <li>1μl EcoRI-lac-F</li>
 +
                    <li>1μl NdeI-lac-R</li>
 +
                    <li>10μl Mix</li>
 +
                    <li>1μl Bacteria Clone</li>
 +
                  </ul>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 7min</li>
 +
                    <li>35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min.</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>lac+cheZ</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/6/6d/Ustc-t7oprf_lac-chez.jpeg" alt="图片名称"></p>
 +
                  <p>Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.</p>
 +
                  <h3 id="construction-of-micf-soxs-gfp">Construction of micF(SoxS)-GFP</h3>
 +
                  <h5>PCR of micF(SoxS) and GFP</h5>
 +
                  <p>Material(volume 50ul)</p>
 +
                  <p>micF(SoxS)-F-BB:1ul</p>
 +
                  <p>micF(SoxS)-E0040-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:22ul</p>
 +
                  <p>template:1ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                  <p>25ul</p>
 +
                  <p>Material(volume 50ul)</p>
 +
                  <p>E0040-F:1ul</p>
 +
                  <p>E0040-R:1ul</p>
 +
                  <p>Primestar:25ul</p>
 +
                  <p>ddH2O:22ul</p>
 +
                  <p>template:1ul</p>
 +
                  <p>Divide the 50ul into 2 parts. Both are</p>
 +
                  <p>25ul</p>
 +
                  <p>PCR cycle including:</p>
 +
                  <ol>
 +
                    <li>Preheat: 98 degree celcius, 5min</li>
 +
                    <li>35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)</li>
 +
                    <li>Elongation for whole at 72 degree celcius 10min</li>
 +
                    <li>4 celcius degree for preserveation.</li>
 +
                  </ol>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>micF and SoxS(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/2/20/Ustc-micf_soxs.jpeg" alt="图片名称"></p>
 +
                  <p>E0040(PCR)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/a/a5/Ustc-e0040.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: micF(SoxS) and GFP(PCR)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Double digest of micF(SoxS) and GFP</h5>
 +
                  <p>Detect the concentration of micF:100ng/ul</p>
 +
                  <p>SoxS:80ng/ul GFP:65ng/ul</p>
 +
                  <p>Volume:20ul</p>
 +
                  <p>Material:</p>
 +
                  <p>micF:15ul</p>
 +
                  <p>XbaI:1ul</p>
 +
                  <p>HindIII:1ul</p>
 +
                  <p>Tango buffer:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                    <p>37℃digest 2 hours.</p>
 +
                  <p>Material:</p>
 +
                  <p>GFP:15ul</p>
 +
                  <p>PstI:1ul</p>
 +
                  <p>HindIII:1ul</p>
 +
                  <p>bufferR:2ul</p>
 +
                  <p>ddH2O:1ul</p>
 +
                  <p>37℃digest 2 hours.</p>
 +
                  <h5>Gel Electrophoresis Characterization</h5>
 +
                  <p>micF and SoxS(xH)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/7/7e/Ustc-micf_soxs_xh.jpeg" alt="图片名称"></p>
 +
                  <p>GFP(PH)</p>
 +
                  <p><img src="https://static.igem.org/mediawiki/2015/0/01/Ustc-E0040_xp.jpeg" alt="图片名称"></p>
 +
                  <h5>Gel Extraction</h5>
 +
                  <p>Material including: micF(SoxS) and GFP(ep)</p>
 +
                  <p>Preparation:</p>
 +
                    <p>•Check out whether ethyl alcohol is added into Wash Solution.</p>
 +
                    <p>•Check out whether Buffer B2 has sediment.</p>
 +
                  <p>•Adjust the thermostat water bath at 50 degree centigrade.</p>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.</li>
 +
                    <li>Measure out the weight of tubes of gel.</li>
 +
                    <li>Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.</li>
 +
                    <li>Add isopropanol one third volume of Buffer B2.</li>
 +
                    <li>After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.</li>
 +
                    <li>Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.</li>
 +
                    <li>Do the step 10 again.</li>
 +
                    <li>Centrifuge the empty columns at 9000xg about 1min.</li>
 +
                    <li>Open the columns and air them about 10 mins.</li>
 +
                    <li>Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.</li>
 +
                  </ol>
 +
                  <h5>Ligation of micF(SoxS), GFP and pSB1C3</h5>
 +
                  <p>In order to ligate the micF(SoxS), GFP and PSB1C3, we need to make the equal mole proportion.</p>
 +
                  <p>The mole of DNA molecule is calculated in the following ways:</p>
 +
                  <p>C1V1/n1=C2V2/n2=……=0.1~0.3</p>
 +
                  <p>Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.</p>
 +
                  <p>Material:</p>
 +
                  <p>micF(SoxS):0.8ul</p>
 +
                  <p>GFP:2.0ul</p>
 +
                  <p>PSB1C3:6ul</p>
 +
                  <p>Solution I:10ul</p>
 +
                  <p>16℃ligate over night, prepare for the Transformation of the next day.</p>
 +
                  <h5>Transformation of micF(SoxS)+GFP Plasmid</h5>
 +
                  <p>Procedure:</p>
 +
                  <ol>
 +
                    <li>Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.</li>
 +
                    <li>Heat in 42℃ bath for 90s. Then put on ice for 5min.</li>
 +
                    <li>Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture. </li>
 +
                    <li>Spread on plate with chloramphenicol, incubate overnight at 37℃.</li>
 +
                  </ol>
 +
                  <p>Then take two bacteria colony into 50ul centrifuge tube, incubate at 37℃.</p>
 +
                  <p>Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-09-10 00:00"><span>2015</span> <span>10/9</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h4>Pre-experiment</h4>
 +
                  <p>Use 1ug/ml Chloromycetin activated the bacteria to test the film.</p>
 +
                  <h4>Film test</h4>
 +
                  <h5>Film</h5>
 +
                  <p>Film type:low-pressure polyethylene.</p>
 +
                  <p>Use the aerosol paint to process one of the surface of the film.</p>
 +
                  <p>Coating the film with 400ul 20ug/ml PLL(Poly-L-Lysine) at the temperature of 4℃ for over 4 hours.</p>
 +
                  <h5>Bacteria solution</h5>
 +
                  <p>Bacteria type: BL21+OprF</p>
 +
                  <p>Mix bacteria with PBS and make the OD~0.3.</p>
 +
                  <h5>Sample solution</h5>
 +
                  <p>1ug/ml Chloromycetin PBS solution.</p>
 +
                  <h5>Inoculation</h5>
 +
                  <p>Drop 200ul bacteria solution on the processed film for 100s</p>
 +
                  <p>After 100s, wash the film with <strong>wash solution</strong> twice Immediately.</p>
 +
                  <h5>Record images</h5>
 +
                  <p>Put the film into the sample box filled with samplw solution.</p>
 +
                  <p>Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.</p>
 +
                  <p>From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.</p>
 +
                  <h5>Results</h5>
 +
                  <p>Fail to get the ideal interference fringes.</p>
 +
                  <p>Cause reflectance is not good enough and have a small amount of diffuse reflection.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-09-11 00:00"><span>2015</span> <span>11/9</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h4>Pre-experiment</h4>
 +
                  <p>Use 1ug/ml Chloromycetin activated the bacteria to test the film.</p>
 +
                  <h5>Film</h5>
 +
                  <p>Film type: Rubbers(Condom)</p>
 +
                  <p>1,Use the aerosol paint to process one of the</p>
 +
                  <p>surface of the film.</p>
 +
                  <p>Fail.Because the film shrink too much.</p>
 +
                  <p>2,Try silver mirror reaction.</p>
 +
                  <p>Fail.Because the ammonia erosion is too severe.</p>
 +
                  <h5>Film</h5>
 +
                  <p>Film type:glass(cover clip——thickness~0.16mm width~2.5cm longth~3.7cm)</p>
 +
                  <p>Use the aerosol paint to process one of the surface of the film.</p>
 +
                    <p>Coating the film with 400ul 20ug/ml PLL(Poly-L-Lysine) at the temperature of 4℃ for over 4 hours.</p>
 +
                  <h5>Bacteria solution</h5>
 +
                  <p>Bacteria type: BL21+OprF</p>
 +
                  <p>Mix bacteria with PBS and make the OD~0.3.</p>
 +
                  <h5>Sample solution</h5>
 +
                  <p>1ug/ml Chloromycetin PBS solution.</p>
 +
                  <h5>Inoculation</h5>
 +
                  <p>Drop 200ul bacteria solution on the processed film for 100s</p>
 +
                  <p>After 100s, wash the film with <strong>wash solution</strong> twice Immediately.</p>
 +
                  <h5>Record images</h5>
 +
                  <p>Put the film into the sample box filled with samplw solution.</p>
 +
                  <p>Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.</p>
 +
                  <p>From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.</p>
 +
                  <h5>Results</h5>
 +
                  <p>Succeed in getting the excellent interference fringes.</p>
 +
                  <p>Record data and process the image.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-09-12 00:00"><span>2015</span> <span>12/9</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h4>Building Calibration</h4>
 +
                  <h4>Film test</h4>
 +
                  <h5>Sample solution</h5>
 +
                  <p>(1)5ug/ml Chloromycetin PBS solution.</p>
 +
                  <p>(2)0.5ug/ml Chloromycetin PBS solution.</p>
 +
                  <h5>Bacteria solution</h5>
 +
                  <p>Bacteria type: BL21+OprF</p>
 +
                  <p>Mix bacteria with PBS and make the OD~0.3.</p>
 +
                  <h5>Inoculation</h5>
 +
                  <p>Drop 200ul bacteria solution on the processed film for 100s</p>
 +
                  <p>After 100s, wash the film with <strong>wash solution</strong> twice Immediately.</p>
 +
                  <h5>Record images</h5>
 +
                  <p>Put the film into the sample box filled with samplw solution.</p>
 +
                  <p>Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.</p>
 +
                  <p>From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.</p>
 +
                  <h5>Results</h5>
 +
                  <p>Succeed in getting the excellent interference fringes.</p>
 +
                  <p>Record data and process the image.</p>
 +
                  <p>Use the Matlab to process the image.</p>
 +
                  <p>Get the fitting according to the modeling so get the calibration.</p>
 +
                </div>
 +
              </li>
 +
              <li>
 +
                <time class="cbp_tmtime" datetime="2015-09-13 00:00"><span>2015</span> <span>13/9</span></time>
 +
                <div class="cbp_tmicon"></div>
 +
                <div class="cbp_tmlabel">
 +
                  <h4>Verifying Calibration</h4>
 +
                    <h4>Film test</h4>
 +
                    <h5>Sample solution</h5>
 +
                    <p>(1)1.8ug/ml Chloromycetin PBS solution.</p>
 +
                    <p>(2)3.2ug/ml Chloromycetin PBS solution.</p>
 +
                    <h5>Bacteria solution</h5>
 +
                    <p>Bacteria type: BL21+OprF</p>
 +
                    <p>Mix bacteria with PBS and make the OD~0.3.</p>
 +
                    <h5>Inoculation</h5>
 +
                    <p>Drop 200ul bacteria solution on the processed film for 100s</p>
 +
                    <p>After 100s, wash the film with <strong>wash solution</strong> twice Immediately.</p>
 +
                    <h5>Record images</h5>
 +
                    <p>Put the film into the sample box filled with samplw solution.</p>
 +
                    <p>Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.</p>
 +
                    <p>From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.</p>
 +
                    <h5>result</h5>
 +
                    <p>Process the gotten images and get the △N.</p>
 +
                    <p>Calculate the △N and get the concentration is 1.80ug/ml and 3.09ug/ml.</p>
 +
                </div>
 +
              </li>
 +
            </ul>
 +
          </div>
 +
        </div>
 +
      </div>
 +
    </div>
  
<ul>
+
  </div>
<li><a href="https://2014.igem.org/Team:ATOMS-Turkiye/Notebook">2014 ATOMS-Turkiye</a></li>
+
</div>
<li><a href="https://2014.igem.org/Team:Tec-Monterrey/ITESM14_project.html#tab_notebook">2014 Tec Monterrey</a></li>
+
<li><a href="https://2014.igem.org/Team:Kyoto/Notebook/Magnetosome_Formation#title">2014 Kyoto</a></li>
+
<li><a href="https://2014.igem.org/Team:Cornell/notebook">2014 Cornell</a></li>
+
</ul>
+
  
</div>
 
 
</html>
 
</html>
 
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Latest revision as of 03:44, 5 October 2015

Synthetic Biology

Genome Extraction

Material
Items (Volume)
Buffer GA (200ul)
Proteinase K solution (20ul)
Buffer GB (220ul)
Ethanol (220ul)
Buffer GD (500ul)
Rinse PW (600ul)
Elution Buffer TE (100ul)

Extraction steps:

  1. Absolute ethanol before use in buffer and rinse GD PW, adding volume refer to the label on the bottle.

  2. Take inoculum 1-5 ml, 10,000 rpm (~ 11,500 × g) was centrifuged 1 min, the supernatant net absorption as possible.

  3. The cell pellet is added to 200 μl buffer GA, shaking to complete the cell suspension.

  4. The tube is added to 20 μl Proteinase K solution, mixed evenly.

  5. Add 220 μl buffer GB, oscillation 15 sec, 70 ℃ and placed 10 min, strain the solution clear, brief centrifugation to remove the tube drops on the inner wall .

  6. Add 220 μl ethanol, mix thoroughly shaken 15 sec, flocculent precipitate may occur at this time, a brief centrifugation to remove the tube drops on the inner wall .

  7. Previous resulting solution and the flocculent precipitate are added into a adsorption column CB3(adsorption column into the collection tube), 12,000 rpm centrifugation 30 sec, discard the liquid, set the adsorption column CB3 into the collection tube.

  8. 500 μl buffer GD was added to CB3 adsorption column(check whether ethanol has been added before use), 12,000 rpm (~ 13,400 × g) centrifugation 30 sec, discard the liquid, set the adsorption column CB3 into the collection tube.

  9. 600 μl rinse PW was added to CB3 adsorption column(check whether ethanol has been added before use), 12,000 rpm(~ 13,400 × g) centrifugation 30 sec, discard the liquid, set the CB3 adsorption column into the collection tube.

  10. Repeat steps 8.

  11. Place the column back into the collection tube CB3, 12,000 rpm (~ 13,400 × g) centrifugation 2 min, discard the waste.Place the adsorption column CB3 at room temperature for several minutes to completely dry absorbent material.

  1. Put the CB3 adsorption column into a clean centrifuge tube and drop 50-200 μl elution buffer TE to the middle of the adsorbed film vacant. Put at room temperature 2-5 min, 12,000 rpm (~ 13,400 × g) centrifugation 2 min, collect the solution in a centrifuge tube.

  2. Detect the concentration of DNA.

Plasmid Extraction
Preparation

  1. Check out whether RNaseA has been added in Buffer P1.
  2. Check out whether ethyl alcohol has been added in Wash Solution
  3. Check out whether sediment exist in Buffer P2 and P2.
    Procedure
  4. Absorb 1.5 to 5 mL bacteria solution in to EP tubes, centrifuge them at 8,000xg 2 mins and then discard the culture medium.
  5. Add 250 ul Buffer P1 into sediment, and use spearhead to make bacteria suspended.
  6. Add 250 ul Buffer P2, and overturn the EP tubes 5 to 10 times immediately and tenderly. Stand tubes about 2 to 4 mins.
  7. Add 350 ul Buffer P3 and overturn the EP tubes 5 to 10 times again immediately and tenderly.
  8. Centrifuge tubes at 12,000xg about 5 to 10 mins.
  9. Pour the supernatant liquid into absorption columns ,centrifuge them at 8,000xg about 30 sec and then discard the liquid in the collecting pipe.
  10. optional:Add 500 ul Buffer DW1 and centrifuge them at 9,000xg about 30 sec. Then discard the liquid in the collecting pipe.
  11. Add 500 ul Wash Solution, centrifuge them at 9,000xg about 30 sec and discard the liquid in the collecting pipe.
  12. Do the step 8 again.
  13. Centrifuge the empty columns at 9,000xg about 1 min.
  14. Put the columns in clean 1.5mL EP tubes, add 50 to 100 ul Elution Buffer on the absorption film, stand 1 min and centrifuge about 1 min at 9,000xg.
  15. Keep the DNA solution for further work.
    The Protocol is based on SanPrep Column Type DNA Plasmid Extraction Kit.

PCR System Preparation and Conditions Setting
PCR system(set 50ul system as an example):
The amount of substance of premier is written on the EP tubes. Calculating the volume of 1XTE required for 10uM primer solution is required before the system preparation.

  1. Template DNA xul as required.
  2. Forward Primer(10 uM) about 1 to 2 ul. The final concentration will be 0.2 to 0.4 uM.
  3. Reverse Primer(10 uM) about 1 to 2 ul. The final concentration will be 0.2 to 0.4 uM.
  4. 5xTransStart FastPfu Fly Buffer 10 ul.
  5. 2.5 mM dNTPs 5 uM. The final concentration will be 0.25 mM.
  6. TransStart FastPfu Fly DNA Polymerase 1 ul.
  7. Double distilled water added to 50 ul.
    Reaction conditions
  8. Calculate the Tm Value. If the complementary strip is smaller than 20 bp, Tm=4X(A+T)+2X(C+G), and the annealing temperature is Tm-5 degree centigrade. If not, use software to figure out the exact Tm value.(Also Tm value exist in report)
  9. PCR cycle:
  10. 1 cycle of 95 degree centigrade about 2 min for pre-degeneration;
  11. 30 to 35 cycles of 95 degree centigrade about 10 sec, Tm-5 degree centigrade about 20 sec and 72 degree centigrade 1kb per min;
  12. 1 cycle of 75 degree centigrade about 5 mins and stay the device in 4 degree centigrade.
    The protocol is based on TransStart FastPfu Fly DNA Polymerase.

PCR Production Extraction
Prepation

  1. Check out whether ethyl alcohol has been added into Wash Solution.
  2. Check out whether sediment exist in Buffer B3.
  3. Check out whether isopropanol has been added into Buffer B3.
    Procedure
  4. Add Buffer B3 3 times volume of PCR system solution and incorporated thoroughly.
  5. Centrifuge them at 8,000xg about 30 sec and drain the liquid in the collecting pipe.
  6. Add 500 ul Wash Solution at 9,000xg about 30 sec and drain the liquid in the collecting pipe.
  7. Do The step 3 again.
  8. Centrifuge the empty pipes at 9,000Xg about 1 min.
  9. Put the absorption column in some clean 1.5 mL EP tubes, add 15 to 40 ul Elution Buffer, stand for 1 min and centrifuge them at 9,000xg about 1min.
  10. Keep the DNA solution.

Restriction Enzymes Analysis
Protocol

20ul system as following:

  1. 2ul plasmid DNA sample;
  2. 1ul restriction enzyme(both 1 ul for double digestion);
  3. 2ul 10X green buffer;
  4. double distilled water added to 20 ul.
    Timetable:react the whole system at 37 degree centigrade about 2 hours and then inactivate the enzymes at 60 degree centigrade about 20 mins.

DNA Gel Electrophoresis
Standard 1% agarose gel
(Generally, 0.7%~2% agarose gel is widely used in lab)

  1. Measure out 1g agarose in scale, and then put the sample into conical flask.
  2. Add 100mL 1XTAE into conical flask, shaking evenly.
    (about 1xTAE: dilute the 50x TAE to 1x TAE: add 10mL 50x TAE and 490 mL double distilled water to form as a system for further use)
  3. Plastic wrap can be used to pack the bottleneck.
  4. Use microwave oven to heat the solution about 5mins until the agarose is all dissolved and the solution is boiling and clear. It would be better if we shake the flask again after heating 2 mins.(CAUTION: HOT! Please use wool gloves when picking and placing flask.)
  5. Let the gel cool down about 2 mins.
  6. Pour the gel into gel tray with the appropriate comb inserted in the side of tray and wait till the gel solified(It may costs about 10 mins). Then remove the comb
  7. Put the gel into gel box with the 1XTAE just immerse the gel exactly. Please let passages stay towards the negative pole(Often black).
  8. Carefully add samples with 6X loading buffer and marker into passages. Dosage is based on the depth and width of passages.
  9. Set electrophoresis conditions: 90V 600mA and 30mins and then turn on the power.
  10. Disconnect the electrodes.
  11. Utilize the devices that contains UV light to observe the gel and analyze the result.
  12. Save the result in the computer for further use.

Gel Extraction
Preparation:

  1. Check out whether ethyl alcohol is added into Wash Solution.
  2. Check out whether Buffer B2 has sediment.
  3. Adjust the thermostat water bath at 50 degree centigrade.
    Procedure:
  4. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
  5. Measure out the weight of tubes of gel.
  6. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
  7. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
  8. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
  9. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
  10. Do the step 5 again.
  11. Centrifuge the empty columns at 9000xg about 1min.
  12. Open the columns and air them about 10 mins.
  13. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
  14. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
    The protocol is based on SanPerp Column Type DNA Gel Extraction Kit.

Preparation of Competent Cell
Procedure

  1. Pick out the simple colony(DH5α) and cultivate bacteria in 2 to 3 mL LB media at 37 degree centigrade about 12 to 16 hours with shocking.
  2. Take 0.05mL nutrient solution into 50 mL media and cultivate bacteria at 37 degree centigrade about 2 to 3 hours with shocking till the OD550 reaches 0.2 to 0.4.
  3. Absorb 1.5mL nutrient solution into EP tubes with ice-bath about 10 mins.
  4. Centrifuge the tubes at 4000xg at 4 degree centigrade about 10mins and discard the supernatant liquid.
  5. Utilize 0.5 to 1 mL 0.1M calcium chloride with 15% glycerol to suspend bacteria.(ATTENTION:USE SPEARHEAD TO SUSPEND BACTERIA TENDERLY INSTEAD OF VIBRATOR )
  6. Centrifuge the tubes at 4000xg at 4 degree centigrade about 8 mins and discard the supernatant liquid.
  7. Utilize 100 ul 0.1M calcium chloride with 15% glycerol to suspend bacteria and then ready for transformation quickly or restore at -70 degree centigrade.(WITH ATTENTION AGAIN)
    TIPS: EXPERIENCE SAYS MODERATE MAGNESIUM ION HELPS DEVELOPMENT OF COMPETENT CELL.

Transformation
NOTE:Generally, competent bacteria are restrored in -70 degree centrigrade environment.
Procedure

  1. Take the competent bacteria from refrigerator and incubate them into ice about 5 mins until it is dissolved
  2. Absorb 100pg to 10 ng plasmid(normally 1 to 2 uL, DO NOT add more than 5% volumn of bacteria solution) and mix it with bacteria solution thoroughly.
    ATTENTION: Please operate this step tenderly!!!
  3. Put the tubes on the ice about 30 mins.(Time SHOULD BE ACCURATE)
  4. Make a heat shock at 42 degree centigrade about 30 sec(TIME SHOULD BE ACCURATE)
  5. Put the tubes on the ice about 2 to 3 mins again.
  6. Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 40 to 60 min.
  7. Centrifuge them at 12,000xg about 15 sec and we will se sediment in the tubes.
  8. Discard the supernatant liquid and leave about 220 ul medium.
  9. Coat plate: add 200 ul solution in a large plate while add 20 ul solution in a small plate.
  10. Cultivate these bacteria overnight for further use.

Biochemical Analysis

SDS-PAGE

Separation Gel

H2O:0.6ml
80%glycerol:0.6ml
Gel buffer:1.2ml
40%Arc-Bis Mix:1.2ml
10%APS:20ul
TEMED:2ul

Stacking Gel

H2O:1.0ml
Gel buffer:0.40ml
40%Arc-Bis Mix:0.20ml
10%APS:20ul
TEMED:2ul

1×glycine Running Buffer

Coomassie brilliant blue solution

Protocol

  1. Assemble the sheet for adding the gel.
  2. Prepare separating gel, and load into the sheet suitable height, then dry it at room temperature.
  3. Prepare stacking gel into the sheet, and plug in the comb, then dry it at room temperature.
  4. Remove the sheet, and pull out a comb, then transfer the plastic sheet into the electrophoresis tank.
  5. Add the electrophoresis tank glycine running buffer to the appropriate location.
  6. Sample electrophoresis.
  7. After completion of the electrophoresis, the gel was removed, placed in Coomassie brilliant blue solution, stain in a microwave for 1-2min.
  8. Gel elution, to background staining disappear.
  9. Observe gel.

NPN Assay

Material

BL21
BL21-T7-SCVE
BL21-T7-OprF
10mM N-Phenyl-1-naphthylamine(NPN)

  1. Inoculate an overnight culture (30 mL with 1 mL of pre-culture).
  2. Centrifugation (15 min at 3000 g) of the whole overnight culture and discard supernatant.
  3. Resuspend pellet in equal volume of 10 mM PBS buffer.
  4. Repeat steps 2) and 3) twice.
  5. Mix 1 mL of washed cells with a 10 mM stock solution of NPN to a final concentration of 10 µM.
  6. Transfer 200 µL of samples to a flat bottomed black 96 well plate.
  7. Detect fluorescence intensity.

Fluorescence intensity of sample is recorded by BMG Labtech CLARIOstar®

ONPG Assay

BL21
BL21-T7-SCVE
BL21-T7-OprF
ONPG solution.

  1. Inoculate an overnight culture (30 mL with 1 mL of pre-culture).
  2. Centrifugation (8 min at 3000 g) of the whole overnight culture and discard supernatant.
  3. Resuspend pellet in equal volume of 10 mM PBS buffer.
  4. Repeat steps 2) and 3) twice.
  5. Inside a clear, flat bottomed 96 well plate, mix 180 µL ONPG (o-nitrophenyl-b-galactopyranoside) stock solution (3 mM in 10 mM PBS buffer) with 20 µL of washed cells.

Absorbance of sample is recorded by BMG Labtech CLARIOstar®

Special Protocol for NDM

Prepare Bacterial Powder

for 500mL

Ingredients Mass
Yeast Extract 2.5g
Trtptone 2.5g
NaCl 15g
KH2PO4 0.5g
Na2HPO4·12H2O 6.5g
glycerol 1.5g
NaCl 15g
  1. prepare the culture medium as above.

  2. prepare the drying agent:
    skim milk 12%(mass fraction)
    NaCl 2%(mass fraction)

  3. culture the bacterial with the culture medium to log phase.
  4. centrifuge the bacterial solution at 5,000r/min.
  5. resuspend bacterial with drying agent in the same volume.
  6. divide the resuspension into EP tube.
  7. freeze the bacterial at -80 degree centigrade for 8 hours.
  8. drying the bacterial with lyophilizer.
  9. store the bacterial powder at -20 degree centigrade.

NDM Operation
This is a brief protocol on NDM operation. For more information, please visit Tutorials

Preparation of antibiotics ruler
To detect antibiotics concentration, users need firstly prepare standard antibiotic concentration, we will set chloromycetin as an example.

Ruler Sample Concentration ug/mL
1 0.1
2 0.5
3 1.0
4 5.0

Coating film with polylysine
Add approximiately 400 ul 20ug/mL polylysine on the film, and store the film at 4 degree celcius for more than 4 hours. After 4 hours, absorb polylysine and then wash the film by PBS buffer. Note: polylysine can be recycled.

Adhesion Assay
Add 200 ul bacteria solution on film about 100s. Note: bacteria grown should be in steady state, and you should dilate bacteria and let its OD(600) approximiately reach 0.05

Operate Optical Path
Operating optical path within 100s would be highly recommended for users. To get the best images, you should observe and get fringes parallel to y axis of screen as possible.

Observe and Record
The measurement period is about 300s. Consequently, we recommend users to take a series of images each 10s during the beginning of 300s.

Materials

Materials of LB Culture Medium
LB Culture(500ml)

Tryptone:5g
Yeast Extract:2.5g
NaCl:5g

LB Solid Culture(200ml)

Tryptone:2g
Yeast Extract:1g
NaCl:2g
AgerA:3g

PBS Buffer(1L)

KH2PO4:0.74g
Na2HPO4:1.42g
NaCl:8g
KCl:0.2g
Add ddH2O about 800mL fully dissolved, then add concentrated hydrochloric acid pH to 7.4, finally set the capacity to 1L.

ONPG Stock Solution

ONPG:0.4g
ddH2O:75ml
PBS buffer:25ml
37℃dissolve the ONPG, store in refrigerator without night at 2-5℃.

NPN Stock Solution(10mM, volume 100ml)

1N NPN: 1g
Dissolve the NPN with 100ml anhydrous alcohol, store it store in refrigerator without night at 2-5℃.

1.5M Tris-HCl(PH 8.8)

  1. Weigh 181.7g Tris into a 1L beaker
  2. Add about 800ml de ionized water, stir well
  3. To be cooled, with concentrated hydrochloric acid to adjust PH to 8.8
  4. Solution set to 1L
  5. After high temperature and high pressure sterilization, room temperature preservation

1.5M Tris-HCl(PH 6.8)

  1. weigh 181.7g Tris into a 1L beaker
  2. add about 800ml de ionized water, stir well
  3. to be cooled, with concentrated hydrochloric acid to adjust PH to 6.8
  4. solution set to 1L
  5. after high temperature and high pressure sterilization, room temperature preservation

10% SDS

  1. Get 10gSDS adding 80ml ddH2O into a 100ml beaker, 68℃, heated and dissolved.
  2. Drop the concentrated hydrochloric acid to PH 7.2.
  3. The solution is determined to be 100ml and the room temperature is kept.

30% Acrylamide

  1. Get 280g acrylamide and BIS to 1L.
  2. Add 800ml deionized water to the beaker, stir to dissolve.
  3. Add the solution to 1L with deionized water, then use the 0.45um filter to filter the impurities.
  4. Store the solution in brown bottle at 4℃.

5×Tris Glycine Buffer

Ingredients Mass(g)
Tris 15.1g
Glycine 94g
SDS 5.0g
  1. The following reagents are added in a 1L beaker

  2. Add about 800ml deionized water, stir and dissolve.

  3. With deionized water, the solution is set to 1L, and the room temperature is kept.

5×SDS-PAGE Loading Buffer

Ingredients Mass or volume
1M Tris-HCl(PH 6.8) 1.25ml
SDS 0.5g
BPB 25mg
Glycerol 2.5ml
  1. The following reagents are added in a 10ml centrifugal tube.

  2. Adding deionized water to dissolve the capacity to 5ml.

  3. Per 500ul packaging, at room temperature.
  4. Before using 25ul 2-ME added to each of the small.
  5. Buffer with 2-ME can be saved for a month.

Bradford R-250 Staining Solution

  1. Get 1g Bradford R-250, placed in a 1L beaker.
  2. Take 250ml isopropanol into the beaker, stir to dissolve.
  3. Adding 100ml to the glacial acetic acid, stirring evenly.
  4. Add 650ml of deionized water, stirring evenly.
  5. filter paper to remove particulate matter, room temperature preservation.

Bradford R-250 Destaining Solution

Ingredients Mass or volume
Acetic acid 100ml
Ethanol 50ml
dH2O 850ml
  1. Take the solution in a 1L beaker.

  2. Fully mixed for use.

50×TAE Buffer

Ingredients Mass or volume
Tris 242g
Na2EDTA·2H2O 37.2g
  1. The following reagents, placed in a 1L beaker.

  2. Add 800ml deionized water to the beaker, stir to dissolve.

  3. Add 57.1ml acetic acid, stirring.

  4. Add deionized water into the solution to 1L, then keep at room temperature.

Agarose

  1. Prepare 1×TAE buffer solution.

  2. According to the required amount of agarose and concentration, add into appropriate conical bottle.

  3. Adding a certain amount of 1 x buffer TAE.

  4. Seal conical bottle with fresh-keeping film, then use the microwave to dissolve agarose.

  5. Solution was cooling to 60 degrees Celsius, fully mixed.

  6. Insert a suitable comb in the plastic mold, then pour the solution into the plastic mold.

  7. Solidify the solution at the room temperature, then place the mold in the electrophoresis tank.

6×Loading Buffer

  1. The following reagents, placed in a 500ml beaker.
  2. Add 200ml of deionized water to the beaker, heating and stirring fully dissolved.
  3. After add 180ml glycerol, the use of NaOH 2N to adjust PH to 7.
  4. Add deionized water to 500ml, then keep at room temperature.

Ampicillin

  1. 5g ampicillin in 50ml Centrifugal tube.
  2. After adding 40ml to the water, fully dissolve the solution, then keep it at 50ml.
  3. Using 0.22ul filter sterilization.
  4. Packaging (1ml), stored at -20℃.

IPTG

  1. Place 1.2gIPTG in the 50ml centrifuge tube.
  2. Add 40ml dH2O, fully dissolve the solution, then keep it at 50ml.
  3. Using 0.22ul filter sterilization.
  4. Packaging (1ml), stored at 20℃.

TB Culture

Ingredients Mass(g)
Tryptone 10g
Yeast Extract 5g
NaCl 10g
  1. Preparation of phosphate buffer solution: 2.31gKH2PO4 and 12.54gK2HPO4 in 90ml deionized water, stirring and dissolving, then keep it at 100ml, high temperature and high pressure sterilized.
  2. Take the following reagents, placed in a 1L conical flask.

  3. Add 800ml deionized water, stir and dissolve.

  4. Keep volume at 1L, high temperature and high pressure sterilization.
  5. Cooling to 60℃, add 100ml phosphate buffer.
  6. 4℃ for preservation.

SOB Culture

Ingredients Mass(g)
Tryptone 10g
Yeast Extract 5g
NaCl 10g
  1. Preparation of 250mM KCl solution: 90ml deionized water dissolved in 1.86gKCl, then keep the solution at 100ml.
  2. Preparation of KCl 2M solution: 90ml deionized water dissolved in 19gMgCl2, then keep the solution at 100ml, high temperature and high pressure sterilization.
  3. Take the following reagents, placed in a 1L conical flask.

  4. Add 800ml deionized water, stir well.

  5. Add 10ml KCl solution into the conical flask.
  6. Drop NaOH 5N solution, adjust PH to 7.
  7. Adding de ionized water to 1L.
  8. High temperature and high pressure sterilization, stored at 4℃.
  9. Add 5ml 2M MgCl2 solution before using.

SOC Culture

  1. Prepare 1M glucose solution:add 18g glucose into 90ml dH2O, fully dissolve the glucose, keep the solution at 100ml.
  2. Add 2ml 1M glucose solution into 100ml SOB solution,mix them evenly.
  3. Preserve at 4℃.

Semi-Solid M63 Medium
In order to characterization the movement of TOP10, semi-solid M63 medium preparation is indispensable in this research.

(500mL Protocol)

Ingredients Mass Proportion(g/mL) or Mole
Yeast Extract 2.5g 0.5%
Trtptone 5g 1%
NaCl 5g 1%
Agar 1.25g 0.25%
KH2PO4 6.8g 50mM
KOH 2.1g 37.5mM
(NH4)2SO4 0.09g 7.5mM
MgSO4 0.06g 0.5mM
FeSO4 0.2969g 1.95mM
D-Glucose 1.98g 11mM

Calibration

Use 1ug/ml Chloromycetin activating bacteria to test the film.

Film

Film type:glass(cover clip——thickness~0.16mm width~2.5cm longth~3.7cm)
Use the aerosol paint to process one of the surface of the film.
Coating the film with 400ul 20ug/ml PLL(Poly-L-Lysine) at the temperature of 4℃ for over 4 hours.

Bacteria solution
Bacteria type: BL21+OprF
Mix bacteria with PBS and make the OD~0.3.

Sample solution
1ug/ml Chloromycetin PBS solution.

Inoculation
Drop 200ul bacteria solution on the processed film for 100s
After 100s, wash the film with wash solution twice Immediately.

Record images
1.Put the film into the sample box filled with sample solution.
2.Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.
3.From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.

Results
Succeed in getting the excellent interference fringes.
Record data and process the image.
Use the Matlab process the image.
Get the fitting according to the module thus get the calibration.

Verifying Calibration

Sample solution
(1)1.8ug/ml Chloromycetin PBS solution.
(2)3.2ug/ml Chloromycetin PBS solution.

result
Process the gotten images and get the △N.
Calculate the △N and get the concentration which is 1.80ug/ml and 3.09ug/ml.

  • Medium preparation

    Prepare and keep a part of solid medium and broth in the refrigerator as a backup.

    Cell culture

    Culture the cell,TOP10, with LB liquid solution overnight.

  • Design protocol
    1. Take the solid medium, heat it until liquid. Then make two plate of solid medium, evenly. Cool it to the room temperature.
    2. prepare antibiotic solution with concentration gradient
      a. prepare antibiotic(neomycin) solution with ddH2O at 50mg/ml as mother solution 1. And dilute it to 10% concertration(5mg/ml) with ddH2O as mother solution 2. Then prepare 8 parts of solution as this:
    Number Solution 1(V/uL) Solution 2(V/uL)
    0 0 0
    1 0 0.2
    2 0 1
    3 0.2 0
    4 0.4 0
    5 0.6 0
    6 0.8 0
    7 1 0

    Keep them in the 70℃ water bath. Then add 800uL liquid solid medium into each Ep tubes. Transfer them into 50℃ water bath.

    1. Cut 4 hole in each plate of solid medium, whose diameter is at 8mm.
    2. Take 5mL culture into the 2 Ep tubes. Centrifuge it at twice. Then add liquid solid medium at 50℃, each 800uL, dissolve evenly.
    3. Take 200uL top10 solution into 8 Ep tubes each at 50℃. Then add the mixed solution into the hole at once until the hole is added up.

    Results: the raw results showed differerent characteristics of chemotaxis based on distinct antibiotic concentration.

    0-3

    4-7

  • 4th Colonial PCR for COMPX
    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl COMPX-F Primer
    • 1μl COMPX-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl TOP10 Solution
    • 12.35μl ddH2O

    Renaturation at 55℃, extend for 1 min. 2 tubes without Taq DNA Polymerase as blank control.

    4th Electrophoresis for Colonical PCR

    Bands are predicted except one. Maybe caused by accident. PCR product keeped for later use.

    PCR for COMPX

    1st Plasmid Extraction for BBa K1492002 & pSB1C3

    1 Centifuge 5 ml bacterium solution, few sediment getted.

    2 Add 250 μl Buffer P1, resuspend cells.

    3 Add 250 μl Buffer P2, mix well, 4 min's standing.

    4 Add 350 μl Buffer P3, mix well.

    5 13.4 rpm centifuge 10 min, move all supernatant to adsorption column, 11.6 rpm centifuge 30 s, discard filtrate.

    6 Add 500 μl Wash Solution, 11.6 rpm centifuge 30 s, discard filtrate. Repeat once.

    7 11.6 rpm centifuge 1 min.

    8 Add 50 μl ddH2O, 2 min's standing, 11.6 rpm centifuge 1 min.

    1st Electrophoresis for Plasmid Extraction

    No result. May due to high concentration of chloramphenicol, bacteria grow very slow. As there is few bacteria, no plasmid getted. Bacterium solution dilute 1:1 with LB medium.

  • The steak-plate of Pseudomonas aeruginosa

    By using the steak-plate method, we successful separated the single conlony of P. aeruginosa.

    \(^o^)/~!

    PA

    2nd Plasmid Extraction for BBa K1492002 & pSB1C3
    1. Centifuge 4.5 ml bacterium solution.
    2. Add 250 μl Buffer P1, resuspend cells.
    3. Add 250 μl Buffer P2, mix well, 4 min's standing.
    4. Add 350 μl Buffer P3, mix well.
    5. 13.4 rpm centifuge 10 min, move all supernatant to adsorption column, 11.6 rpm centifuge 30 s, discard filtrate.
    6. Add 500 μl Wash Solution, 11.6 rpm centifuge 30 s, discard filtrate. Repeat once.
    7. 11.6 rpm centifuge 1 min.
    8. Add 30 μl ddH2O, 2 min's standing, 11.6 rpm centifuge 1 min.
    2nd Electrophoresis for Plasmid Extraction

    Successfully extracted tRNA plasmid. Failed to extract pSB1C3 plasmid, cause culture is contaminated.

    Result:

    plasmid extraction

    tRNA 114ng/μl

    1st PCR for tRNA
    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl tRNA-F2 Primer
    • 1μl tRNA-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl tRNA plasmid
    • 12.35μl ddH2O

    Renaturation at 50℃, extend for 1:30.

    1st Electrophoresis for tRNA PCR

    No result.

    Transformation of Four Parts of Plate 4
      material:
    • competent cell TG1 from the lab 319
    • 4 parts of the plate 4(pSB1A2)
    • No.1:BBa_B0034 No.2:BBa_C0051
    • No.3:BBa_R0051 No.4:BBa_E0040
      the procedure
    1. Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved
    2. Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.
    3. Put the tubes on the ice about 30 mins.
    4. Make a heat shock at 42 degree centigrade about 60 sec
    5. Put the tubes on the ice about 3 mins again.
    6. Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.
    7. Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.
    8. Discard the supernatant liquid and leave about 100ul medium.
    9. Coat plate: add 100ul solution in a plate
  • The Results of Transformation of Jul 13th

    transformations of three parts are successful:

    • No.1 B0034
    • No.2 C0051
    • No.4 E0040

    transformation of one part is failing:

    No.3 R0051

    Plasmid Extraction of pSB1C3

    the plasmis:pSB1C3

    the procedure:

    1. Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 1 min and centrifuge about 1 min at 12,000xg.

    PS:this protocol is from lab 319

    the concentration :11.0ng/ul

    PS:the concentration of the control plasmid is 136.0 ng/ul,so we guess that maybe the concentration of bacterium solution is low.Also we guess that it's caused by the missing of spreading.

    Transformation of Three Parts and One Plasmid
      the plasmid going to be transformed:
    1. No.1 BBa_R0062(plate 2;pSB1C3)
    2. No.2 BBa_B0015(plate 3;pSB1C3)
    3. No.3 BBa_R0051(plate 4;pSB1A2)
    4. No.4 pSB1C3
      the procedure:

      note:add 1 ul R0062 ,1 ul B0015,2 ul R0051,

      2 ul pSB1C3 to 100 ul competent cells respectively

    1. Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved
    2. Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.
    3. Put the tubes on the ice about 30 mins.
    4. Make a heat shock at 42 degree centigrade about 60 sec
    5. Put the tubes on the ice about 3 mins again.
    6. Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.
    7. Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.
    8. Discard the supernatant liquid and leave about 100ul medium.
    9. Coat plate: add 100ul solution in a plate
    Plasmid Extraction of Three Parts of Plate 4

    the procedure is the same as before

    the concentration :

    B0034 157.6ng/ul, 113.7ng/ul;

    C0051 171.7ng/ul, 194.6ng/ul;

    E0040 278.5ng/ul, 228.2ng/ul

  • Results of transformation

    R0051 no colony

    R0062 have single colony

    B0015 have single colony

    pSB1C3 have single colony and the colony is red

    Plasmid Extraction Results

    This is extraction was for previous transformation.

    • pSB1C3(1): 108ng/uL
    • pSB1C3(2): 157ng/uL
    • B0015(1): 19ng/uL
    • B0015(2): 93ng/uL

    Prepared for further use.

  • Colonical PCR for micF and SoxS

    Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    micF-luxI-R TTATAGTCATATAAATTTTCTCCTCTTTCCGAATGCGAGGCATCC
    micF-F GCGGCCGCTTCTAGAGCCTCATTAATCAGTCGGC
    SoxS-RBS-luxI-R TATAGTCATATAAATTTTCTCCTCTTTCTAGTGCGTGCGCCGGTACCTT
    BB-SoxS-F CGGCCGCTTCTAGAGCGTGCGGAACATTCG

    For micF, primers including micF-luxI-R, micF-F, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl micF-luxI-R Primer
    • 1μl micF-F Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl Top10(K-12) Strain E. coli bacterial solution
    • 12.35μl ddH2O

    For SoxS, primers including SoxS-RBS-luxI-R, BB-SoxS-F, protocol illustrates as:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl SoxS-RBS-luxI-R Primer
    • 1μl BB-SoxS-F Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl 1μl Top10(K-12) Strain E. coli bacterial solution
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Characterization of Colonical PCR by Gel Electrophoresis

    PCR

    The result illustrated the success of PCR

  • Colonical PCR for OprF from Psudomonus aeruginosa

    Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    OprF-F AGAGGAGAAAATCGGAATGAAACTGAAGAACAC
    OprF+Ter-R TGATGCCTGGCTCTAGTATTACTTGGCTTCAGCTT

    PCR protocol:

    For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl OprF-F Primer
    • 1μl OprF+Ter-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl Psudomonus aeruginosa (PAO1) bacterial solution
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Plasmid Extraction of SCVE

    SCVE synthesized from Sangon Biotech Co.,Ltd.

    Procedure including:

    1. Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 1 min and centrifuge about 1 min at 12,000xg.
    Characterization of SCVE and OprF by Gel Electrophoresis

    PCR

    Only 1/4 PCR results successfully duplicated results, plasimid extraction from SCVE showed well.

    Second PCR for OprF didn't work well:(

    Digestion of E0040(EGFP)

    Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer

    Protocol as following:

    • Nuclease-free water: 15ul
    • E0040: 1ul
    • 10* FastDigest Green Buffer: 2ul
    • EcoRI: 1ul
    • SpeI: 1ul

    We are trying to figure out the best conditions of our experiment and whether we need loading buffer

    Time With Loading Buffer or not
    5min Yes(1), No(2)
    2h Yes(3), No(4)
    PCR of E0040(EGFP)

    Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    E0040-F ATGCGTAAAGGAGAAGAACTTT
    R0051-E0040-R TACGCATATAAATTTTCTCCTCTTTGCAACCA

    For E0040, primers including E0040-F, R0051-E0040-R, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl E0040-F Primer
    • 1μl R0051-E0040-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl plasmid(pSB1C3) containing E0040
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.

    Attention: R0051-E0040-R Primer is not appropriate because of only 8 complementary base pairs.

    Characterization of E0040 from Digestion and PCR

    PCR

    Result illustrated that We do need loading buffer, and 5 min do work!

    PCR showed more concentration of E0040!

    Gel Extraction

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.

    Final OD results:

    Code OD(ng/ul)
    PCR(1) 15.3
    PCR(2) 4.5
    PCR(3) 27.0
    Digestion(1) with 5 mins 15.4
    Digestion(3) with 2 h 22.7

    Perseved for further use.

  • Transfofmation of Three Parts

    Protocol as following

    • 100μl (three tubes)competent cells
    • C0062(pSB1C3)
    • R0010(pSB1C3)
    • C0061(pSB1C3)
    • LB without antibiotic
    • LB medium with Amp/CmR
    Plasmid Extraction of E0040

    Procedure including:

    1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.

    2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.

    3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.

    4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.

    5.Centrifuge tubes at 12,000xg about 10 mins.

    6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.

    7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.

    8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.

    9.Do the step 8 again.

    10.Centrifuge the empty columns at 12,000xg about 1 min.

    11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    Results

    Code OD(ng/ul)
    E0040(1) 166.7
    E0040(2) 169.2
    Colonical PCR for OprF from Psudomonus aeruginosa

    PCR protocol:

    For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl OprF-F Primer
    • 1μl OprF+Ter-R Primer
    • 0.5μl Taq DNA Polymerase(add more 0.25ul then previous protocol)
    • 2μl MgCl2
    • 1μl Psudomonus aeruginosa (PAO1) bacterial solution
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Digestion of E0040(EGFP)

    Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer

    Protocol as following:

    • Nuclease-free water: 15ul
    • E0040: 1ul
    • 10* FastDigest Green Buffer: 2ul
    • EcoRI: 1ul
    • SpeI: 1ul
    Characterization of OprF and E0040

    图片名称

    Plasmid Extraction of Cas9(K1218011)

    The bacteria were cultured at 9 am from successfully transformed bacteria.

    Procedure including:

    1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.

    2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.

    3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.

    4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.

    5.Centrifuge tubes at 12,000xg about 10 mins.

    6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.

    7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.

    8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.

    9.Do the step 8 again.

    10.Centrifuge the empty columns at 12,000xg about 1 min.

    11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    Characterization of Cas9

    图片名称

  • Digestion of K1218011(Cas9)

    Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer

    Protocol as following:

    • Nuclease-free water: 15ul
    • K1218011: 1ul
    • 10* FastDigest Green Buffer: 2ul
    • EcoRI: 1ul
    • SpeI: 1ul

    Incubate into 37 degree celcius, 2h

    Digestion of SCVE

    Enzyme from Thermo Scientific FastDigest Enzyme with Green Buffer

    Protocol as following:

    • Nuclease-free water: 16ul
    • SCVE: 1ul
    • 10* FastDigest Green Buffer: 2ul
    • SmaI: 1ul

    Incubate into 37 degree celcius, 2h

    Colonical PCR for OprF from *Psudomonus aeruginosa, micF and SoxS from K-12

    PCR protocol:

    For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl OprF-F Primer
    • 1μl OprF+Ter-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl Psudomonus aeruginosa (PAO1) bacterial solution
    • 12.35μl ddH2O

    For micF, primers including micF-luxI-R, micF-F, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl micF-luxI-R Primer
    • 1μl micF-F Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl Top10(K-12) Strain E. coli bacterial solution
    • 12.35μl ddH2O

    For SoxS, primers including SoxS-RBS-luxI-R, BB-SoxS-F, protocol illustrates as:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl SoxS-RBS-luxI-R Primer
    • 1μl BB-SoxS-F Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl 1μl Top10(K-12) Strain E. coli bacterial solution
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Praparation for Competent Cell

    protocol as the following:

    1. Pick out two single colonies(TG1) and cultivate bacteria in 5mL LB media at 37 degree centigrade about 12 hours with shocking.
    2. Take 5mL nutrient solution into 100 mL media and cultivate bacteria at 37 degree centigrade about one hour and a half with shocking till the OD660 reaches 0.4-0.5.
    3. Absorb 50 mL nutrient solution into EP tubes with ice-bath about 10 mins.
    4. Centrifuge the tubes at 4100xg at 4 degree centigrade about 10mins and discard the supernatant liquid.
    5. Utilize 30 mL 0.1M calcium chloride to suspend bacteria.
    6. Centrifuge the tubes at 4100xg at 4 degree centigrade about 10 mins and discard the supernatant liquid.
    7. Utilize 2 mL 0.1M calcium chloride with 15% glycerol to suspend bacteria and then ready for transformation quickly or restore at -70 degree centigrade.
    Time(min) OD600
    40 0.195
    60 0.203
    80 0.309
    90 0.439

    PS:dilute the solution by adding 100 mL LB media after first test.

  • Negative Chemotaxis Characterization

    term 1, material:

    • LB solid medium plates x4
    • 1g/ml Chloramphenicol
    • E.coli Top10
    • filter paper
    Plasmid Extraction of EmrE and ArcB

    done by Wang Luyao

    Procedure including:

    1. Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    the concentration as following

    EmrE 70.2 ng/ul 92.3 ng/ul

    ArcB 62.6 ng/ul 95.2 ng/ul

    Transformation of R0051 and C0061

    the source of parts:

    No.1 R0051 2014 kit plate 4

    No.2 R0051 2014 kit plate 4

    No.3 control

    No.4 C0061 2015 kit plate 4

    No.5 C0061 2015 kit plate 4

    No.6 C0061 2014 kit plate 4

    No.1 and No.4 the competent cell is from lab319

    No.2 and No.5 the competent cell is made by us (firt)

    No.3 and No.6 the competent cell is made by us (second)

    the protocol as following

    1. Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved
    2. Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.
    3. Put the tubes on the ice about 30 mins.
    4. Make a heat shock at 42 degree centigrade about 60 sec
    5. Put the tubes on the ice about 3 mins again.
    6. Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.
    7. Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.
    8. Discard the supernatant liquid and leave about 100ul medium.
    9. Coat plate: add 100ul solution in a plate
    PCR of OrpF

    material:

    • 13 uL Taq Master Mix
    • 11 uL dd water
    • 1 uL PAO1 bacterial
    • 0.5 uL primer Fd(OrpF-F)
    • 0.5 uL primer Rv(OrpF+Ter-R)
      PS:Taq Master Mix is from lab 319 ,and this reagent is used for bacterial PCR.

    Renaturation at 50℃, extend for 1:10

  • PCR of OprF

    material:

    No.1 and No.2:

    • 6.5 uL Taq Master Mix
    • 1 uL PAO1 bacterial solution
    • 4.5 uL dd water
    • 0.5 uL OprF-F
    • 0.5 uL OprF+Ter-R

    No.3 and No.4:

    • 6.5 uL Taq Master Mix
    • 4 uL OprF PCR product
    • 1.5 uL dd water
    • 0.5 uL OprF-F
    • 0.5 uL OprF+Ter-R

    PS:Taq Master Mix is from lab 319 ,and this reagent is used for bacterial PCR.

    Renaturation at 55℃, extend for 1:10

    OprF for PCR and gel electrophoresisOprF

    图片名称

    analyze: the length of the product is

  • Preparation of Semi-Solid LB Medium

    In order to characterization the movement of TOP10, semi-solid LB medium preparation is indispensable in this research.

    (500mL Protocol)

    Ingredients Mass Proportion(g/mL)
    Yeast Extract 2.5g 0.5%
    Trtptone 5g 1%
    NaCl 5g 1%
    Agar 1.25g 0.25%

    Compared with solid LB medium, containing 1.5% agar in there.

    Plasmid Extraction C0051,B0015 and R0062

    Procedure including:

    1. Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    the concentration as following

    C0015:171.7 ng/uL

    B0015:93 ng/uL

    R0062:144.3 ng/uL

    PCR of C0051,B0015 and R0062

    material:

    C0051 plasmid(171.7 ng/uL)

    B0015 plasmid(93 ng/uL)

    R0062 plasmid(144.3 ng/uL)

    all the solutions are diluted 10-folds

    Primers produced from Sangon Biotech Co.,Ltd.

    Primers Sequence(5' to 3')
    C0051-F(I) att tat atg agc aaa aag aaa cca tta tca
    C0051-B0015-R(I) tat ttg atg cct ggc tct agt gat cta cac tag cac ta
    B0015-R(I) gcc gct act agt taa acg cag aaa ggc cca cc
    B0015-F cca ggc atc aaa taa aac gaa agg
    R0062-F gcg gcc gct tct aga gac ctg tag gat cg
    R0062-C0051-R tgt gct cat ata aat ttt ctc ctc ttt cta gat ttt att cga c

    No.1 and No.2 for C0051(803bp)

    Protocol as this:

    • 2.5 μl Taq buffer with KCl
    • 2.5 μl dNTPs
    • 0.75 μl C0051-F Primer
    • 0.75 μl C0051-B0015-R(I) Primer
    • 0.5 μl Taq DNA Polymerase
    • 1.0 μl MgCl2
    • 2 uL C0051 solution
    • 15 μl ddH2O

    No.3 and No.4 for B0015(142bp)

    Protocol as this:

    • 2.5 μl Taq buffer with KCl
    • 2.5 μl dNTPs
    • 0.75 μl B0015-F Primer
    • 0.75 μl B0015-R(I) Primer
    • 0.5 μl Taq DNA Polymerase
    • 1.0 μl MgCl2
    • 3 uL C0051 solution
    • 14 μl ddH2O

    No.5 and No.6 for R0062(104bp)

    Protocol as this:

    • 2.5 μl Taq buffer with KCl
    • 2.5 μl dNTPs
    • 0.75 μl R0062-F Primer
    • 0.75 μl R0062-C0051-R Primer
    • 0.5 μl Taq DNA Polymerase
    • 1.0 μl MgCl2
    • 2 uL R0062 solution
    • 15 μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 2min(C0061)or 1min(B0015 and R0062)
    4. 4 celcius degree for preserveation.
    Preparation Semi-Solid M63 Medium

    In order to characterization the movement of TOP10, semi-solid M63 medium preparation is indispensable in this research.

    (500mL Protocol)

    Ingredients Mass Proportion(g/mL) or Mole
    Yeast Extract 2.5g 0.5%
    Trtptone 5g 1%
    NaCl 5g 1%
    Agar 1.25g 0.25%
    KH2PO4 6.8g 50mM
    KOH 2.1g 37.5mM
    (NH4)2SO4 0.09g 7.5mM
    MgSO4 0.06g 0.5mM
    FeSO4·7H2O 0.2710g 1.95mM
    D-Glucose 1.98g 11mM
    Colonical PCR for OprF from Psudomonus aeruginosa and SCVE from pUC57

    PCR protocol:

    For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl OprF-F Primer
    • 1μl OprF+Ter-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl Psudomonus aeruginosa (PAO1) bacterial solution
    • 12.35μl ddH2O

    For SCVE, Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    SCVE-T-R TTGATGCCTGGCTCTAGTACACCAGCAGATCCGG
    T7-RBS-SCVE-F TTTTTGCATACTAGAGAAAGAGGAGAAAATTTATATGTATAGCTTTGTG

    Protocol as this:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl SCVE-T-R Primer
    • 1μl T7-RBS-SCVE-F Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl SCVE solution from plasmid extraction
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis of OprF, SCVE micF and SoxS

    micF and SoxS

    图片名称

    OprF and SCVE

    图片名称

    Gel Extraction

    Material including: OprF, SoxS, micF

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
  • Plasmid Extraction of R0062

    Procedure including:

    1. Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.
    PCR for OprF and C0061

    PCR protocol:

    For OprF, primers including OprF-F, OprF+Ter-R, protocol as following:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl OprF-F Primer
    • 1μl OprF+Ter-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl Psudomonus aeruginosa (PAO1) bacterial solution
    • 12.35μl ddH2O

    For SCVE, Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    C0061-F ATGACTATAATGATAAAAAAATCGGATTTTTTGGCA
    C0061-B0015-R ATTTGATGCCTGGGAGATCTACACTAGC

    Protocol as this:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl C0061-F Primer
    • 1μl C0061-B0015-R Primer
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1μl C0061 solution
    • 12.35μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Gel Extraction of C0062,B0015 and R0062

    Material including: C0051,B0015 and R0062

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.

    the concentration as following:

    C0051:12.7 ng/uL

    B0015:7.3 ng/uL

    R0062:7.7 ng/uL

    PCR of OprF

    material:

    • 13 uL Taq Master Mix
    • 11 uL dd water
    • 1 uL PAO1 bacterial
    • 0.5 uL primer Fd(OrpF-F)
    • 0.5 uL primer Rv(OrpF+Ter-R)

    Renaturation at 55℃, extend for 2min

    Gel Electrophoresis Characterization

    C0051 and B0015

    图片名称

    OprF

    图片名称

    That was relatively successully extracted OprF from colonical PCR.

    R0062

    图片名称

  • Preparation for Homologous Recombination: Plasimid Digestion

    Enzyme from Thermo Scientific FastDigest Enzyme with 10X Green Buffer

    Protocol as following:

    • Nuclease-free water: 15ul
    • pSB1C3: 1ul
    • 10* FastDigest Green Buffer: 2ul
    • EcoRI: 1ul
    • SpeI: 1ul

    Incubate solution at 37 degree celcius about 2h.

    PCR of C0061,B0015 and micF

    material:

    C0061 plasmid: 477.1 ng/uL(diluted 20-folds)

    B0015 PCR product:7.3 ng/uL

    micF-1 PCR product:13.4 ng/uL

    ForB0015 Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    B0015-F cca ggc atc aaa taa aac gaa agg
    B0015-R(I) gcc gct act agt ata taa acg cag aaa ggc cca cc

    protocol:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl Primer-Fd
    • 1μl Primer-Rv
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • 1uL C0061 plasmid,4uL B0015 plasmid,2uL plasmid
    • (13.35-X)μl ddH2O

    Renaturation at 55℃, extend for 1min

  • PCR of C0061,B0015,R0062,R0010 and C0062

    material:

    C0061 plasmid:477.1 ng/uL(0.2 uL)

    B0015 plasmid:19 ng/uL(3 uL)

    R0062 plasmid:143.3 ng/uL(0.5 uL)

    C0051 plasmid:171.7 ng/uL(0.5 uL)

    R0010 plasmid:357.7 ng/uL(diluted 10-folds,1 uL)

    C0062 plasmid:739.4 ng/uL(diluted 10-folds,1uL)

    for R0062.R0010 and C0062Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    R0062-F gcg gcc gct tct aga ctg tag gat cg
    R0062-C0051-R tgt gct cat ata aat ttt ctc ttt cta gat ttt att cga c
    backbone-R0010-F ccgctt cta gag cca tac gca aac cgc ctc tc
    C0062-B0034-R cta gtg tc agt aat aaa ttt tct cct ctt tg tgt gaa att gt
    B0034-C0062-F tat tac tga gca cta gat gaa aaa cat aaa tgc cga c
    B0015-C0062-R atg cct vggc tct agt gat cta cac tag cac t

    protocol:

    • 2μl Taq buffer with KCl
    • 0.4μl dNTPs
    • 1μl Primer-Fd
    • 1μl Primer-Rv
    • 0.25μl Taq DNA Polymerase
    • 2μl MgCl2
    • XuL plasmid
    • (13.35-X)μl ddH2O

    Renaturation at 55℃, extend for 1min

    PS:

    C0061:656bp B0015:142bp R0062:104bp

    C0051:803bp C0062:813bp R0010:243bp

    Characterization of micF and SoxS by Gel Electrophoresis

    图片名称

    micF were successfully PCRed.

    Characterization of pSB1C3 and SoxS by Gel Electrophoresis

    图片名称

  • Characterization of R0051, C0061 and C0051 by Gel Electrophoresis

    图片名称

    Plasimid Extraction for pSB1C3 and C0061

    Procedure including:

    1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.

    2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.

    3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.

    4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.

    5.Centrifuge tubes at 12,000xg about 10 mins.

    6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.

    7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.

    8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.

    9.Do the step 8 again.

    10.Centrifuge the empty columns at 12,000xg about 1 min.

    11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    Gel Extraction

    Material including: R0051, C0051 and C0061

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
    Characterization of B0015 and R0051 by Gel Electrophoresis

    图片名称

  • Overlap Circuit

    图片名称

    This sensing circuit including promoter micF and SoxS.

    Overlapping Fragments

    In order to ligate the fragements micF or SoxS, C0061 and B0015, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    图片名称

    among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    According to our sample extracted from PCR and calculation, ingradients characterize as below:

    Name Concentration(ng/uL) Length(bp)
    micF 12.6 358
    SoxS 27.5 705
    C0061(LuxI) 18.5 656
    B0015(Terminator) 9.5 143
    Total 1161

    The theoratical volumn proportion is:

    • SoxS-C0061-B0015: 5: 7: 3
    • micF-C0061-B0015: 5.5: 7: 3

    Firstly, to ligate these parts, we need 10 cycles without primer:

    for circuit SoxS-C0061-B0015:

    Name Volumn(uL)
    SoxS 5
    C0061 7
    B0015 3
    Taq Polymerase 0.25
    MgCl2 2
    dNTP 0.4
    10X buffer with KCl 2
    ddH2O 0.35

    for circuit micF-C0061-B0015:

    Name Volumn(uL)
    micF 5.5
    C0061 7
    B0015 3
    Taq Polymerase 0.25
    MgCl2 2
    dNTP 0.4
    10X buffer with KCl 2

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.

    Then, we extracted 5 ul as template, and 15 ul adding with primer:

    Primers were synthesized from Sangon Biotech. Co.,Ltd.

    Primers Sequence(5' to 3')
    micF-F GCGGCCGCTTCTAGAGCCTCATTAATCAGTCGGC
    B0015-R GCCGCTACTAGTATATAAACGCAG
    BB-SoxS-F CGGCCGCTTCTAGAGCGTGCGGAACATTCG

    5ul-template protocol:

    Name Volumn(uL)
    Template 5
    Taq Polymerase 0.25
    MgCl2 2
    dNTP 0.4
    micF-F(BB-SoxS-F) 1
    B0015-R 1
    10X buffer with KCl 2
    ddH2O 8.35

    15ul-protocol:

    Name Volumn(uL)
    Solution 15
    micF-F(BB-SoxS-F) 1
    B0015-R 1
    10X buffer with KCl 2
    ddH2O 1

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
    PCR of Five Parts

    material:

    R0010 plasmid:193.1ng/uL

    C0062 plasmid:952.5ng/uL

    B0015 plasmid:93ng/uL

    R0062 plasmid:143.3ng/uL

    For R0051 Primers produced from Sangon Biotech Co.,Ltd.

    protocol:

    • 2uL 10X buffer with KCl
    • 0.4uL dNTP
    • 1uL primers-F
    • 1uL primers-R
    • 0.25uL Taq Polymerase
    • 2uL MgCl2
    • 1uL plasmid
    • 12.35 uL ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
    Overlap PCR of bacteria III

    material:

    • R0062 PCR product:21.2 ng/uL
    • C0051 PCR product:22.8 ng/uL
    • B0015 PCR product:24.6 ng/uL

    protocol:

    total volume 20 uL

    • R0062(104bp) 1 uL
    • C0051(803bp) 8 uL
    • B0015(153bp) 1.5uL
    • ddH2O 4.85 uL
    • buffer 2uL
    • dNTP 0.4uL
    • Taq polymerase 0.25uL
    • MgCl2 2uL

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.

    After the 10 cycles,we divide the 20 ul system into two parts:5ul and 15ul.The 5ul PCR product will be used as template in another new 20ul system.On the other hand, add primers

    (R0062-F primer 1uL;C0062-B0015-R(I) primer 1uL)to the remaining 15 uL PCR product.

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.

    Result:

    we don't get the product we want.We guess the templates are not the right products,maybe they have mutations .So we decide to do the overlap PCR of bateriaI to test whether the method is suitable.

  • Plasmid Extraction of gRNA-AcrB and gRNA-EmrE

    Procedure including:

    1. 1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. 2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. 3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. 4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. 5.Centrifuge tubes at 12,000xg about 10 mins.
    6. 6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. 7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. 8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. 9.Do the step 8 again.
    10. 10.Centrifuge the empty columns at 12,000xg about 1 min.
    11. 11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.
    Gel Extraction

    Material including: R0061

    Case 1: Sangon Biotech.

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
    Case 2: Axygen

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add 400~600 ul Buffer DE-A and then incubate the EP tubes in thermostat water bath about 75 degree centigrade within 10 mins.
    4. After gel is all dissolved, add 1/3 volumn of Buffer DE-B into EP tubes. The solution will turn yellow, illustrating complete dissolved.
    5. Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul Buffer W1 in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Add 700 ul Buffer W2 in a centrifuge at 9000Xg about 30s and pour out the solution.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
    Overlapping Fragments

    We conduct the overlapping again.

    However, the sample has a little difference. The concentration of micF changes to 58.7ng/uL. According to our sample extracted from PCR and calculation, ingradients characterize as below:

    Name Concentration(ng/uL) Length(bp)
    micF 57.8 358
    SoxS 27.5 705
    C0061(LuxI) 18.5 656
    B0015(Terminator) 9.5 143
    Total 1161

    The theoratical volumn proportion is:

    • SoxS-C0061-B0015: 5: 7: 3
    • micF-C0061-B0015: 1.3: 7: 3

    Firstly, to ligate these parts, we need 10 cycles without primer:

    for circuit SoxS-C0061-B0015:

    Name Volumn(uL)
    SoxS 5
    C0061 7
    B0015 3
    Taq Polymerase 0.25
    MgCl2 2
    dNTP 0.4
    10X buffer with KCl 2
    ddH2O 0.35

    for circuit micF-C0061-B0015:

    Name Volumn(uL)
    micF 1.3
    C0061 7
    B0015 3
    Taq Polymerase 0.25
    MgCl2 2
    dNTP 0.4
    10X buffer with KCl 2
    ddH2O 4.1

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.

    Primers are the same as before.

    Name Volumn(uL)
    Template 5
    Taq Polymerase 0.25
    MgCl2 2
    dNTP 0.4
    micF-F(BB-SoxS-F) 1
    B0015-R 1
    10X buffer with KCl 2
    ddH2O 8.35

    15ul-protocol:

    Name Volumn(uL)
    Solution 15
    micF-F(BB-SoxS-F) 1
    B0015-R 1
    10X buffer with KCl 2
    ddH2O 1

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
    PCR of Cas9(80l)

    material:

    8 uL buffer with KCl

    35 uL dd water

    8 uL Plasmid with Cas9

    4 uL primer R

    4 uL primer F

    8 uL MgCl2

    8 uL dNTPs

    5 uL DMSO

    1 uL Tap polymerase

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.

    图片名称

  • Negative Chemotaxis Characterization

    Done by Wang Luyao

    Term 1 results

    IMG_3119.JPG

    IMG_3117.JPG

    I put the paper on this plate after the E.coli grows homogeneously, so let's see the result later.

    IMG_3121.JPG

    the controlled plate

    the last plate was contaminated

    Term 2

    material:

    LB solid medium plates x6

    0.8、0.6、0.4、0.2、0.1g/ml Chloramphenicol

    E.coli Top10

    filter paper

    Enzyme Digestion

    Performing twice separately

    Both as following protocol:

    Name Volumn(uL)
    pSB1C3 10
    XbaI 1
    SpeI 1
    green buffer 2
    ddH2O 6
    Overlap PCR of bacteriaI

    material:

    • micF PCR product :33.6ng/uL
    • C0061 PCR product: 18.5ng/uL
    • B0015 PCR product:9.2ng/uL
    • micF-F primer
    • B0015-R primer

    protocol:

    total volume: 25uL

    • Taq Master Mix 12.5uL
    • micF 2uL
    • C0061 6uL
    • B0015 2.6uL
    • ddH2O 1.9uL

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 90s)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.

    After the 10 cycles,we divide the 20 ul system into two parts:5ul and 15ul.The 5ul PCR product will be used as template in another new 20ul system.On the other hand, add primers

    to the remaining 15 uL PCR product.

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 90s)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.

    Results:

    We don't get the product we want.We make some research and guess that the probable reasons are the following:Taq polymerase can cause 3'd A to PCR product;the annealing temperature is unsuitable;the length of overlap fragment isn't enough .

  • Negative Chemotaxis Characterization

    Done by Wang Luyao

    7.30

    Term 2 results

    ee 001.JPG

    qqwqw 003.JPG

    ee 002.JPG

    The 0.8、0.6、0.4 plates just look similar, the denser Chloramphenicol the paper hold, the bigger the clear zone is.

    https://attachments.tower.im/tower/2c1b10f8c093490f8d3036cbb803ddfc?version=auto&filename=IMG_3125.JPG

    IMG_3126.JPG

    but the 0.2 and 0.1g/ml plates are different, Top10 grows denser on the edge of the clear zone, I supposed it can show that E.coli has moved. So next time I'll try under 0.2g/ml.

    IMG_3128.JPG

    The controlled plate

    PCR of C0062 and R0010

    material:

    • 10 ul Taq PCR Master Mix
    • 7 ul ddH2O
    • 1 ul Primer F
    • 1 ul Primer R
    • 1 ul C0062 or R0010

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
  • Negative Chemotaxis Characterization

    Done by Wang Luyao

    Term 3, material:

    • LB solid medium plates x5

    • 0.2、0.1、0.05、0.025g/ml Chloramphenicol

    • E.coli Top10

    • filter paper

    PCR of micF, SoxS, C0061 and R0015

    material(volume 50uL):

    • 25 ul Taq PCR Master Mix
    • 15 ul ddH2O
    • 2.5 ul Primer F
    • 2.5 ul Primer R
    • 2.5 ul Top10 culture, Top10 culture, C0061 or R0015

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
    PCR of tRNA
    Primers Sequence(5' to 3')
    tRNA-F GAATTCGCGGCCGCTTCTAGATAATACGACTCACTATAGGGAATACAAGCTACTTGTTCTTTTTGCAATGGACGAGTTCGAAATGATT
    tRNA-R CTGCAGCGGCCGCTACTAGTTTACAGACGTTTGCGAATTG
    tRNA-F2 TTTAATCCCCGTCCACTGGGTAATACGACTCACTATAGGGAATAC

    Protocol (volume 20uL):

    • 2 ul Taq Buffer
    • 0.4 ul dNTP
    • 1 ul tRNA-F
    • 1 ul tRNA-R
    • 0.25 ul Taq DNA Polymerase
    • 2 ul MgCl2
    • 1 ul tRNA
    • 12.35 ul ddH2O

    Protocol (volume 20uL):

    • 2 ul Taq Buffer
    • 0.4 ul dNTP
    • 1 ul tRNA-F2
    • 1 ul tRNA-R
    • 0.25 ul Taq DNA Polymerase
    • 2 ul MgCl2
    • 1 ul tRNA
    • 12.35 ul ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 25 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.

    Result

    Only one sample get PCR product, concentration 441ng/μL. tRNA-F2 dosen't work for wrong template.

    Remember to review gene map before experiments!

    PCR of cheZ

    material:

    Top 10 Bacterial Solution

    Primers produced from Sangon Biotech Co.,Ltd.

    Primers Sequence(5' to 3')
    cheZ-F GTGCAATTGATCCAGGAGCTCAGCCAGGC
    cheZ-T7-R GCTCCTGGATCAATTGCACATAAATTTTCTCCTCTTTTGCAAAAAGAA

    for cheZ (~600bp)

    Protocol as this:

    • 2.5 μl Taq buffer with KCl
    • 2.5 μl dNTPs
    • 0.75 μl cheZ-F Primer
    • 0.75 μl cheZ-T7-R Primer
    • 0.5 μl Kod DNA Polymerase(600bp/min)
    • 1.0 μl MgCl2
    • 2 uL Top10 Solution
    • 15 μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min 30s)
    3. Elongation for whole at 72 degree celcius 2min(C0061)or 1min(B0015 and R0062)
    4. 4 celcius degree for preserveation.

    It turned out we used wrong primer:(

    PCR of CheZ and B0015

    material:

    • TOP 10 baterial solution
    • PAO1 bacterial solution
    • B0015 plasmid :93.0 ng/uL

    protocol:

    total system 25uL

    • buffer 2.5 uL
    • dNTPs 2.5uL
    • MgSO4 2uL
    • primer-F 0.75 uL
    • primer-R 0.75 uL
    • bacterial solution/plasmid 1uL
    • KOD-Plus enzyme 0.5uL
    • ddH2O 17uL

    PCR cycle including:

    1. Preheat: 94 degree celcius, 2min
    2. 35 cycles containing: degradation(94 degree celcius, 15s; annealing(55 degree celcius, 30s and elongation(68 degree celcius 50s)
    3. Elongation for whole at 68 degree celcius 7min.
    4. 4 celcius degree for preserveation.

    The protocol is from lab319,the enzyme is KOD-Plus.

    Result:

    We don't get the product we want .It turned out because of wrong primer we implemented.

    Transformation of C0062

    the protocol as following

    1. Take the competent bacteria from refrigerator and incubate them into ice about 10 mins until it is dissolved
    2. Absorb 1 uL or 2 uL plasmid and mix it with bacteria solution thoroughly.
    3. Put the tubes on the ice about 30 mins.
    4. Make a heat shock at 42 degree centigrade about 60 sec
    5. Put the tubes on the ice about 3 mins again.
    6. Add 900 ul LB medium into EP tubes and cultivate the bacteria at 37 degree centrigrade about 60 min.
    7. Centrifuge them at 4,000xg about 15 sec and we will se sediment in the tubes.
    8. Discard the supernatant liquid and leave about 100ul medium.
    9. Coat plate: add 100ul solution in a plate
  • Negative Chemotaxis Characterzation

    Done by Wang Luyao

    Term 3 results

    qqqq 031.JPG

    qqqq 032.JPG

    qqqq 033.JPG

    qqqq 034.JPG

    this time I got the similar results, but I cannot tell whether the bacteria is moved or didn't grow up.

    so let's see the term 1 result:

    qqwqw 002.JPG

    I put the paper on this plate after the E.coli grows homogeneously. Now after I took it out I got this.

    It's obviously that the bacteria moved. If E.coli died, the medium cannot be clear, the bodies will stay. In the middle of the area, there was a bubble formed by the medium and the wet paper. There is dilute Chloramphenicol, so the some bacteria moved there.

    So we qualitatively proved that E.coli negative chemotaxis !!!

    PCR of cheZ

    Material:

    Top 10 Bacterial Solution

    Primers produced from Sangon Biotech Co.,Ltd.

    Primers Sequence(5' to 3')
    cheZ-F GTGCAATTGATCCAGGAGCTCAGCCAGGC
    che-Ter-R TTTATTTGATGCCTGGCTCTAGTATCAGAAACCCAGGCTGGACA

    for cheZ (~600bp)

    Protocol as this:

    • 5 μl Taq buffer with KCl
    • 1 μl dNTPs
    • 2.5 μl cheZ-F Primer
    • 2.5 μl che-Ter-R Primer
    • 0.65 μl Pfu DNA Polymerase(600bp/min)
    • 5 μl MgCl2
    • 2.5 uL Top10 Solution
    • 31 μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min 30s)
      1.Elongation for whole at 72 degree celcius 10 mins
    3. 4 celcius degree for preserveation.

    No results: May be because of Pfu enzyme has already been out of date.

    Protocol again:

    Ingredients Volumn(uL)
    2X Taq Master Mix 25
    cheZ-F 2.5
    che-Ter-R 2.5
    Top10 Solution 5
    ddH2O 15
    Ingredients Volumn(uL)
    2X Taq Master Mix 25
    cheZ-F 2.5
    che-Ter-R 2.5
    Top10 Solution 5
    ddH2O 12.5
    DMSO 2.5

    No results:it turns out cheZ sequence in TOP10 is different from PAO1, we designed after PAO1

    Protocol again:

    Ingredients Volumn(uL)
    2X Taq Master Mix 25
    cheZ-F 2.5
    che-Ter-R 2.5
    PAO1 Solution 5
    ddH2O 15
    Ingredients Volumn(uL)
    Taq buffer with KCl 5
    dNTPs 1
    che-Ter-R 2.5
    PAO1 Solution 5
    ddH2O 28.35
    MgCl2 5
    Taq Polymerase 0.65

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    PCR of tRNA

    Protocol (volume 20uL):

    • 2 ul Taq Buffer
    • 0.4 ul dNTP
    • 1 ul tRNA-F2
    • 1 ul tRNA-R
    • 0.25 ul Taq DNA Polymerase
    • 2 ul MgCl2
    • 1 ul tRNA
    • 12.35 ul ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.
    Gel Extraction of tRNA

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Add 1.5mL Buffer B2 and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    3. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    4. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    5. Do the step 5 again.
    6. Centrifuge the empty columns at 9000xg about 1min.
    7. Open the columns and air them about 10 mins.
    8. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 10 min and then centrifuge at 9000xg about 1 min.
    9. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.

    Result

    Concentration 64ng/ul.

    PCR of CheZ

    material:

    Top 10 Bacterial Solution

    protocol:

    total system 25uL

    • buffer 2.5 uL
    • dNTPs 2.5uL
    • MgSO4 3uL
    • primer-F 0.75 uL
    • primer-R 0.75 uL
    • bacterial solution/plasmid 1uL
    • KOD-Plus-Neo enzyme 0.5uL
    • ddH2O 16uL

    PCR cycle including:

    1. Preheat: 94 degree celcius, 2min
    2. 35 cycles containing: degradation(98 degree celcius, 10s; annealing(55 degree celcius, 30s and elongation(68 degree celcius 30s)
    3. Elongation for whole at 68 degree celcius 7min.
    4. 4 celcius degree for preserveation.
      The protocol is from lab 319.
    PCR of T7 promoter
    Primers Sequence(5' to 3')
    T7-F GAATTCGCGGCCGCTTCTAG
    T7-R2 agacatgcaatttttttcattccgattttctcctcttttgcaaaaagaacaagtagct
    T7 Promoter1 GAATTCGCGGCCGCTTCTAGAtaatacgactcactatagggaatacaagctacttgttctttttgca
    T7 Promoter2 tgcaaaaagaacaagtagcttgtattccctatagtgagtcgtattaTCTAGAAGCGGCCGCGAATTC

    Protocol (volume 20uL):

    • 10 ul Mix
    • 1 ul T7-F
    • 1 ul T7-R2
    • 1 ul T7 Promoter1
    • 1 ul T7 promoter2
    • 6 ul ddH2O

    PCR cycle including:

    1. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 30s)
    2. Elongation for whole at 72 degree celcius 7min.
    3. 4 celcius degree for preserveation.
    PCR Purification of T7
    1. Add Buffer B3 in 5 times volumn of PCR product.
    2. Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    3. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    4. Do the step 5 again.
    5. Centrifuge the empty columns at 9000xg about 1min.
    6. Open the columns and air them about 10 mins.
    7. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    8. Keep the DNA solution and measure the concentration of DNA and A260/A280 for further study.

    Result

    Concentration 28ng/ul.

    PCR of T7 promoter

    Conduct the PCR again.

    Protocol (volume 20uL):

    • 10 ul Mix
    • 1 ul T7-F
    • 1 ul T7-R2
    • 1 ul T7 Promoter1
    • 1 ul T7 promoter2
    • 6 ul ddH2O

    PCR cycle including:

    1. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s ) and elongation(72 degree celcius 30s)
    2. Elongation for whole at 72 degree celcius 7min.
    3. 4 celcius degree for preserveation.
    Seamless Clone of tRNA Plasmid

    Protocol:

    • 8.5 ul Seamless cloning Master Mix
    • 3 ul linear PSB1C3 plasmid
    • 2 ul tRNA
    • 6.5 ul ddH2O
      Incubate at 50℃ for 60min.
    Seamless Clone of Anchor Plasmid

    Protocol:

    • 8.5 ul Seamless cloning Master Mix
    • 3 ul linear PSB1C3 plasmid
    • 1 ul T7 promoter
    • 1 ul COMPX
    • 6.5 ul ddH2O
      Incubate at 50℃ for 60min.
    Transformation of tRNA Plasmid & Anchor Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. 4000rpm centrifuge for 3min, discard 500ul supernate.
    5. Spread on plate with chloramphenicol, incubate overnight at 37℃.
  • Plasmid Extraction of C0061

    Procedure including:

    1. Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.
    PCR of cheZ and OprF from PAO1

    Yesterday, we may extract cheZ from PAO 1, though with a lot of primer dimer. Today, DMSO will be implemented trying to eliminate these fragements.

    Ingredients Volumn(uL)
    Taq buffer with KCl 5
    dNTPs 1
    cheZ-F 2.5
    cheZ-Ter-R 2.5
    PAO1 Solution 5
    ddH2O 25.85
    MgCl2 5
    Pfu Polymerase 0.65
    DMSO 2.5
    Ingredients Volumn(uL)
    Taq buffer with KCl 5
    dNTPs 1
    Opr-F 2.5
    OprF-Ter-R 2.5
    PAO1 Solution 5
    ddH2O 25.85
    MgCl2 5
    Pfu Polymerase 0.65
    DMSO 2.5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2 min 30 s)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    PCR Purification of T7
    1. Add Buffer B3 in 5 times volumn of PCR product.
    2. Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    3. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    4. Do the step 5 again.
    5. Centrifuge the empty columns at 9000xg about 1min.
    6. Open the columns and air them about 10 mins.
    7. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    8. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
    Gel Extraction

    Material including: OprF, cheZ

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.
    Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA

    Protocol(volume 20ul)

    • 1μl T7-F Primer
    • 1μl COMPX-R or tRNA-R Primer
    • 10μl Mix
    • 1μl Bacteria Clone
    • 7μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.

    No Result.

    Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA

    Conduct the PCR again.

    Protocol(volume 20ul)

    • 1μl T7-F Primer
    • 1μl COMPX-R or tRNA-R Primer
    • 10μl Mix
    • 1μl Bacteria Clone
    • 7μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.

    No Result.

    PCR Purification of tRNA & COMPX
    1. Add Buffer B3 in 5 times volumn of PCR product.
    2. Pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    3. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    4. Do the step 5 again.
    5. Centrifuge the empty columns at 9000xg about 1min.
    6. Open the columns and air them about 10 mins.
    7. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    8. Keep the DNA solution and measure the concentration of DNA and A260/A280 for further study.

    Result

    tRNA 26ng/ul, COMPX 24ng/ul.

    Transformation of tRNA Plasmid & Anchor Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. 4000rpm centrifuge for 3min, discard 500ul supernate.
    5. Spread half of the bacteria culture on plate with chloramphenicol, incubate overnight at 37℃.
  • Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA

    Protocol(volume 20ul)

    • 1μl T7-F Primer
    • 1μl COMPX-R or tRNA-R Primer
    • 10μl Mix
    • 1μl Bacteria Clone
    • 7μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    PCR of OprF from PAO1

    Yesterday, we may extract cheZ from PAO 1, though with a lot of primer dimer. Today, DMSO will be implemented trying to eliminate these fragements.

    Ingredients Volumn(uL)
    Taq buffer with KCl 5
    dNTPs 1
    Opr-F 2.5
    OprF-Ter-R 2.5
    PAO1 Solution 5
    ddH2O 28.35
    MgCl2 5
    Pfu Polymerase 0.65
    DMSO 2.5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2 min)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    PCR of C0061

    material(volume 100uL):

    • 6 ul MgCl2
    • 71 ul ddH2O
    • 4 ul Primer F
    • 4 ul Primer R
    • 2 ul dNTP
    • 1 ul Taq DNA polymerase
    • 10 ul 10*PCR Buffer
    • 2 ul C0061

    PCR cycle including:

    1 Preheat: 94 degree celcius, 5min

    2 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)

    3 Elongation for whole at 72 degree celcius 1min

    4 4 celcius degree for preserveation.

    Gel Extraction

    Material including: R0061

    Preparation:

    • Check out whether ethyl alcohol is added into Wash Solution.

    • Check out whether Buffer B2 has sediment.

    • Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.

    6 Measure out the weight of tubes of gel.

    7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.

    8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.

    9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.

    10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.

    11 Do the step 5 again.

    12 Centrifuge the empty columns at 9000xg about 1min.

    13 Open the columns and air them about 10 mins.

    14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.

    PCR for gRNA-AcrB and gRNA-EmrE

    material:

    gRNA-AcrB plasmid(280.7 ng/uL)

    gRNA-EmrE plasmid(222.4 ng/uL)

    PCR protocol:

    For gRNA-AcrB and gRNA-EmrE, primers including gRNA-F, gRNA-R, protocol as following:

    • 10μl Taq Master Mix
    • 1μl gRNA-F Primer
    • 1μl gRNA-R Primer
    • 0.25μl Taq DNA Polymerase
    • 6.75μl ddH2O
    • 1μl gRNA-AcrB(or gRNA-EmrE) Plasmid

    For gRNA, Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    gRNA-F GCGTCTAGATTGACAGCTAGCTCAGTAGGTATAAT
    gRNA-R TAGTAGGTCGTATTAAAAAAAAGCACCGAC

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    gRNA-AcrB and gRNA-EmrE

    图片名称

    Gel Extraction of gRNA-AcrB and gRNA-EmrE

    Material including: gRNA-AcrB and gRNA-EmrE

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.

    the concentration as following:

    gRNA-AcrB: 44 ng/uL

    gRNA-EmrE: 41 ng/uL

    PCR for T7-tet Promoter

    PCR protocol:

    For T7-tet promoter, primers including T7-tet-F, T7-tet-R, protocol as following:

    • 10μl Taq Master Mix
    • 1μl T7-tet-F Primer
    • 1μl T7-tet-R Primer
    • 1μl template-F Primer
    • 1μl template-R Primer
    • 0.25μl Taq DNA Polymerase
    • 5.75μl ddH2O

    Use template-F Primer and template-R Primer as templates

    For T7-tet, Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    template-F taatacgactcactatgatagaaaagaggagaaaatc
    template-R gattttctcctcttttctatcatagtgagtcgtatta
    T7-tet-F Ttaatacgactcactatgatagaaaagaggag
    T7-tet-R gtatttcttatccattccgattttctcctcttttctat

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    T7-tet Promoter

    图片名称

    Gel Extraction of T7-tet Promoter

    Material including: T7-tet Promoter

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.

    the concentration as following:

    T7-tet: 30 ng/uL

    Seamless Clone of cheZ Plasmid and Circuit Containing E0040

    Protocol:

    Fragements Length(bp) Mass Required(ug)
    linear PSB1C3 plasmid 2070 41.4
    T7 Promoter 46 9.2
    cheZ 683 13.66
    B0015 143 2.86
    Ingredients Volumn
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 3 ul
    T7 Promoter 1ul(+3 folds ddH2O)
    cheZ 1ul(+1 fold ddH2O)
    B0015 1ul(+9 folds ddH2O)
    ddH2O 5.5ul

    Incubate at 50℃ for 60min.

    Fragements Length(bp) Mass Required(ug)
    linear PSB1C3 plasmid 2070 41.4
    R0061 30 0.6
    E0040 720 14.4
    B0015 143 2.86
    Ingredients Volumn(uL)
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 3 ul
    R0061 1ul(+20 fold ddH2O)
    E0040 1ul(+1 fold ddH2O)
    B0015 1ul(+9 folds ddH2O)
    ddH2O 5.5ul
    PCR for Cas9-PART I and Cas9-PART II

    material:

    Cas9 plasmid(511.3 ng/uL)

    PCR protocol:

    For Cas9-PART I and Cas9-PART II, primers including Cas9-1-F, Cas9-1-R,Cas9-2-F, Cas9-2-R, protocol as following:

    • 10μl Taq Master Mix
    • 1μl Cas9-1-F(or Cas9-2-F) Primer
    • 1μl Cas9-1-R(or Cas9-2-R) Primer
    • 0.25μl Taq DNA Polymerase
    • 6.75μl ddH2O
    • 1μl Cas9 Plasmid

    For Cas9, Primers produced from Sangon Biotech Co.,Ltd.

    Primer Sequence(5'-3')
    Cas9-1-F ggaatggataagaaatactcaataggcttag
    Cas9-1-R gctgtttcatcaccttatcatcaaaga
    Cas9-2-F gataaggtgatgaaacagcttaaacgtc
    Cas9-2-R ctactagtgggaccattcaaaacagcatagc

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5min)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    Cas9-PART I and Cas9-PART II

    图片名称

    Gel Extraction of Cas9-PART I and Cas9-PART II

    Material including: Cas9-PART I and Cas9-PART II

    Preparation:

    1. Check out whether ethyl alcohol is added into Wash Solution.
    2. Check out whether Buffer B2 has sediment.
    3. Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 5 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    11. Keep the DNA solution and often measure the concentration of DNA and A260/A280 for further study.

    the concentration as following:

    Cas9-PART I : 31 ng/uL

    Cas9-PART II: 16 ng/uL

    Seamless Clone of tRNA Plasmid

    Protocol:

    • 8.5 ul Seamless cloning Master Mix
    • 3 ul linear PSB1C3 plasmid
    • 1 ul tRNA
    • 7.5 ul ddH2O

    Incubate at 50℃ for 60min.

    Seamless Clone of Anchor Plasmid

    Protocol:

    • 8.5 ul Seamless cloning Master Mix
    • 3 ul linear PSB1C3 plasmid
    • 1 ul T7 promoter
    • 1 ul COMPX
    • 6.5 ul ddH2O

    Incubate at 50℃ for 60min.

    Transformation of tRNA Plasmid & Anchor Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
  • PCR for micF and C0061

    Protocol:

    Ingradients Volumn(uL)
    10X PCR buffer 8
    dNTPs 1.6
    micF-F 4
    micF-luxI-R 4
    Top10 Solution 8
    Pfu Polymerase 0.5
    ddH2O 53.9
    Ingradients Volumn(uL)
    10X PCR buffer 8
    dNTPs 1.6
    C0061-F 4
    C0061-B0015-R 4
    C0061 8
    Pfu Polymerase 0.5
    ddH2O 53.9

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30s)
    3. Elongation for whole at 72 degree celcius 7 min
    4. 4 celcius degree for preserveation.
    Seamless Clone of circuit I

    material:

    pSB1C3(XbaI&SpeI digest) 2062bp 7.1ng/uL

    micF 402bp 58.7ng/uL

    C0061 656bp 27.4ng/uL

    B0015 142bp 7.1ng/uL

    seamless clone kit

    protocol:

    pSB1C3 12.4uL

    micF 0.5uL

    C0061 1.73uL

    B0015 1.46uL

    seamless clone mix 8.5uL

    Incubate at 50℃ for 60min.

    Transformation of circuit I

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 3min.
    3. Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
  • Seamless Clone of circuit I

    material:

    pSB1C3(XbaI&SpeI digest) 2062bp 7.1ng/uL

    micF 402bp 58.7ng/uL

    C0061 656bp 27.4ng/uL

    B0015 142bp 7.1ng/uL

    seamless clone kit

    protocol:

    pSB1C3 12.4uL

    micF 0.5uL

    C0061 1.73uL

    B0015 1.46uL

    seamless clone mix 8.5uL

    Incubate at 50℃ for 60min.

    Transformation of circuit I

    Protocol:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 3min.
    3. Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Transformation of pSB1C3

    protocol:

    1. Add 2ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 3min.
    3. Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Double digest of pSB1C3

    protocol:

    pSB1C3 plasmid solution 10ul

    XbaI 1ul

    SpeI 1ul

    Tango.buffer 2ul

    ddH2O 6ul

    incubate at 37℃ for 2 hours.

  • Colonial PCR of PSB1C3-T7-COMPX & PSB1C3-T7-tRNA

    Protocol(volume 20ul)

    • 1μl T7-F Primer
    • 1μl COMPX-R or tRNA-R Primer
    • 10μl Mix
    • 1μl Bacteria Clone
    • 7μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Colonial PCR of PSB1C3-T7-cheZ & PSB1C3-R0051-E0040-B0015

    Protocol(volume 13.5ul)

    • 0.25μl Primer 1
    • 0.25μl Primer 2
    • 6.5μl Mix
    • 1μl Bacteria Clone
    • 5.5μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Overlap Circuit of gRNA-Cas9

    图片名称

    Overlapping Fragments

    In order to ligate the fragements gRNA-ArcB or gRNA-EmrE, T7-tet, Cas9-PART I and Cas9-PART II, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    图片名称

    among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    According to our sample extracted from PCR and calculation, ingradients characterize as below:

    Name Concentration(ng/uL) Length(bp)
    gRNA-ArcB 44 162
    gRNA-EmrE 41 162
    T7-tet 30 56
    Cas9-PART I 31 1954
    Cas9-PART II 16 2358
    Total 4530

    The theoratical volumn proportion is:

    • gRNA-ArcB-T7-tet-Cas9-PART I-Cas9-PART II : 2: 1: 31: 64
    • gRNA-EmrE-T7-tet-Cas9-PART I-Cas9-PART II: 2: 1: 31: 64

    Firstly, to ligate these parts, we need 10 cycles without primer:

    for circuit gRNA-ArcB-T7-tet-Cas9-PART I-Cas9-PART II:

    Name Volumn(uL)
    gRNA-ArcB 0.2
    T7-tet 0.1
    Cas9-PART I 3.1
    Cas9-PART II 6.4
    Taq Polymerase 0.25
    dNTP(+MgCl2) 2
    10X buffer 2
    DMSO 1
    ddH2O 4.95

    for circuit gRNA-EmrE-T7-tet-Cas9-PART I-Cas9-PART II:

    Name Volumn(uL)
    gRNA-EmrE 0.2
    T7-tet 0.1
    Cas9-PART I 3.1
    Cas9-PART II 6.4
    Taq Polymerase 0.25
    dNTP(+MgCl2) 2
    10X buffer 2
    DMSO 1.25
    ddH2O 4.7

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 10 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 6.5min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.

    Then, we extracted 5 ul as template, and 15 ul adding with primer:

    Primers were synthesized from Sangon Biotech. Co.,Ltd.

    Primers Sequence(5' to 3')
    gRNA-F GCGTCTAGATTGACAGCTAGCTCAGTAGGTATAAT
    Cas9-2-R CTACTAATGGGACCATTCAAAACAGCATAGC

    5ul-template protocol:

    Name Volumn(uL)
    Template 5
    Taq Polymerase 0.25
    dNTP(+MgCl2) 2
    10X buffer 2
    DMSO 1.25
    ddH2O 7.5
    gRNA-F 1
    Cas9-2-R 1

    15ul-protocol:

    Name Volumn(uL)
    Solution 15
    gRNA-F 1
    Cas9-2-R 1
    DMSO 1
    10X buffer 2

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 6.5min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
  • Plasmid Extraction of Circuit 1, B0015, T7

    Procedure including:

    1.Absorb 6 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.

    2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.

    3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.

    4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.

    5.Centrifuge tubes at 12,000xg about 10 mins.

    6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.

    7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.

    8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.

    9.Do the step 8 again.

    10.Centrifuge the empty columns at 12,000xg about 1 min.

    11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    Enzyme Digestion

    Protocol:

    Name Volumn(uL)

    pSB1C3 10

    XbaI 1

    SpeI 1

    10* Buffer Tango 2

    ddH2O 15

    Colonial PCR of PSB1C3-T7-COMPX

    Protocol(volume 20ul)

    • 1μl T7-F Primer
    • 1μl COMPX-R
    • 10μl Mix
    • 1μl Bacteria Clone
    • 7μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Double Digest of T7 Plasmid

    Protocol (Volume 20ul)

    • 4ul Tango Buffer
    • 2ul BamHI
    • 2ul SalI
    • 10ul T7 Plasmid
    • 2ul ddH2O
      Incubate at 37℃ for 3h.
    Colonial PCR of PSB1C3-T7-COMPX

    Conduct the PCR again.

    Protocol(volume 20ul)

    • 1μl T7-F Primer
    • 1μl COMPX-R
    • 10μl Mix
    • 1μl Bacteria Clone
    • 7μl ddH2O

    PCR cycle including:

    1. Preheat: 94 degree celcius, 7min
    2. 35 cycles containing: degradation(94 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Double Digest of T7 Plasmid

    Protocol (Volume 20ul)

    • 4ul Tango Buffer
    • 2ul BamHI
    • 2ul SalI
    • 10ul T7 Plasmid
    • 2ul ddH2O
    • Incubate at 37℃ overnight.
  • Seamless Clone of circuit I

    material:

    pSB1C3(XbaI&SpeI digest) 2062bp 36.7ng/uL

    micF 402bp 39ng/uL

    SoxS 736bp 44.4ng/uL

    C0061 656bp 27.4ng/uL

    B0015 142bp 22ng/uL

    seamless clone kit

    protocol:

    pSB1C3 1.12uL

    micF 0.2uL or SoxS 0.33uL

    C0061 0.48uL

    B0015 0.14uL

    seamless clone mix 8.5uL

    Incubate at 50℃ for 60min.

    Transformation of circuit I

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 3min.
    3. Add 500ul LB culture(no antibiotics), shaking at 37℃ for 30min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Colony PCR of Circuit I

    pick 16 single colonies and shaking culture for 5 hours.

    protocol:

    • 6.5 ul Taq Master Mix
    • 5.5 ul ddH2O
    • 0.25 ul C0061-F primer
    • 0.25 ul C0061-B0015-R primer
    • 0.5 ul bacterial solution

    PCR cycle including:

    1. Preheat: 95 degree celcius, 5min
    2. 30 cycles containing: degradation(95 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 50 s)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
  • PCR of C0062

    material(volume 100uL):

    • 6 ul MgCl2
    • 71 ul ddH2O
    • 4 ul Primer F
    • 4 ul Primer R
    • 2 ul dNTP
    • 1 ul pfu DNA polymerase
    • 10 ul 10*PCR Buffer
    • 2 ul C0062

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 4.5 min)
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
  • Seamless Clone of pSB1C3-R0010-C0062-B0015
    Ingredients Volumn
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 2 ul
    R0010 0.4ul
    C0062 0.6ul
    B0015 2.4ul
    ddH2O 6.1ul

    Incubate at 50 degree celcius 1 h.

    Seamless Clone of pSB1C3-T7-COMPX
    Ingredients Volumn
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 2ul
    T7 2ul
    COMPX 1ul
    ddH2O 6.5ul
    Ingredients Volumn
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 2ul
    T7 1ul
    COMPX 1ul
    ddH2O 14.5ul

    Incubate at 50 degree celcius 1 h.

    Transformation of pSB1C3-T7-COMPX

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Enzyme Digestion of pSB1C3-T7-COMPX and pSB1C3-tRNA
    Ingredients Volumn
    Tango Buffer 2ul
    plasmid 10ul
    Spe I 1ul
    Xba I 1ul
    ddH2O 6ul

    Incubate at 37 degree celcius for 2 h.

  • Transformation of pSB1C3-R0010-C0062-B0015

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Transformation of pSB3A3

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. Spread on plate with Ampcilin, incubate overnight at 37℃.
    Plasmid Extraction of T7

    Procedure including:

    1. Absorb 4.5 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.
    2. Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.
    3. Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.
    4. Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.
    5. Centrifuge tubes at 12,000xg about 10 mins.
    6. Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.
    7. Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.
    8. Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.
    9. Do the step 8 again.
    10. Centrifuge the empty columns at 12,000xg about 1 min.
    11. Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.
    PCR of OprF from PAO1
    Ingredients Volumn(uL)
    2XTaq Mix 25
    OprF-F 2.5
    OprF-Ter-R 2.5
    PAO1 2.5
    ddH2O 17.5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2 min)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
  • Plasmid Extraction of R0062, B0015, SCVE, T7

    Procedure including:

    1.Absorb 4.5 mL bacteria solution in to EP tubes, centrifuge them at 12,000xg 1mins and then discard the culture medium.

    2.Add 250 ul Buffer S1 into sediment, and use spearhead to make bacteria suspended.

    3.Add 250 ul Buffer S2, and overturn the EP tubes 8 times immediately and tenderly. Stand tubes about 3 mins.

    4.Add 350 ul Buffer W3 and overturn the EP tubes 10 times again immediately and tenderly.

    5.Centrifuge tubes at 12,000xg about 10 mins.

    6.Pour the supernatant liquid into absorption columns ,centrifuge them at 12,000xg about 30 sec and then discard the liquid in the collecting pipe.

    7.Add 500 ul Buffer W1 and centrifuge them at 12,000xg about 30 sec. Then discard the liquid in the collecting pipe.

    8.Add 700 ul Buffer W2, centrifuge them at 12,000xg about 30 sec and discard the liquid in the collecting pipe.

    9.Do the step 8 again.

    10.Centrifuge the empty columns at 12,000xg about 1 min.

    11.Put the columns in clean 1.5mL EP tubes, add 80 ul Elution Buffer on the absorption film, stand 10 min and centrifuge about 1 min at 12,000xg.

    PCR of R0062, C0051, E0040, B0015
    Ingredients Volumn(uL)
    PCR Buffer 5
    Primer 1 2.5
    Primer 2 2.5
    Plasimid Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    Pre-annealing of R0051
    Ingredients Volumn(uL)
    R0051-F1 10
    R0051-R1 10

    Incubate solution in 95 degree celcius 30 min and then used for PCR.

    PCR of R0051, T7-OprF, T7-SCVE, SCVE, micF and soxS
    Ingredients Volumn(uL)
    PCR Buffer 5
    Primer 1 2.5
    Primer 2 2.5
    Plasimid Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2min)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    PCR of OprF, micF, SoxS
    Ingredients Volumn(uL)
    PCR Buffer 5
    Primer 1 2.5
    Primer 2 2.5
    Bacterial Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    Gel Extraction

    Material including: R0061, E0040, B0015, T7-OprF

    Preparation:

    • Check out whether ethyl alcohol is added into Wash Solution.

    • Check out whether Buffer B2 has sediment.

    • Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.

    6 Measure out the weight of tubes of gel.

    7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.

    8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.

    9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.

    10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.

    11 Do the step 5 again.

    12 Centrifuge the empty columns at 9000xg about 1min.

    13 Open the columns and air them about 10 mins.

    14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.

    PCR of OprF, SoxS, micF
    Ingredients Volumn(uL)
    PCR Buffer 5
    Primer 1 2.5
    Primer 2 2.5
    Bactieral Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(Temperature gradient: 48 degree celcius, 50 degree celcius, 53 degree celcius and 55 degree celcius 30s) and elongation(72 degree celcius 2min)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    Gel Extraction

    Material including: T7-SCVE, SCVE

    Preparation:

    • Check out whether ethyl alcohol is added into Wash Solution.

    • Check out whether Buffer B2 has sediment.

    • Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.

    6 Measure out the weight of tubes of gel.

    7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.

    8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.

    9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.

    10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.

    11 Do the step 5 again.

    12 Centrifuge the empty columns at 9000xg about 1min.

    13 Open the columns and air them about 10 mins.

    14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min

    Enzyme Digestion of pSB1C3

    incubate at 37 degree celcius about 2 h

    Ingredients Volumn(uL)
    Enzyme 1 1
    Enzyme 2 1
    pSB1C3 4
    Tango Buffer 4
    ddH2O 10
    strategy Enzyme 1 Enzyme 2
    Strategy 1 EcoRI PstI
    Strategy 2 EcoRI SpeI
    Strategy 1 XbaI PstI
    Strategy 2 XbaI SpeI
  • PCR of C0061, micF/SoxS-binding C0061

    for C0061

    Ingredients Volumn(uL)
    PCR Buffer 5
    C0061-F 2.5
    C0061-B0015-RI 2.5
    Plasimid Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    for micF-C0061

    Ingredients Volumn(uL)
    PCR Buffer 5
    micF-R-BB 2.5
    B0034-C0061-R 2.5
    Plasimid Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    for SoxS-C0061

    Ingredients Volumn(uL)
    PCR Buffer 5
    SoxS-R-BB 2.5
    B0034-C0061-R 2.5
    Plasimid Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 2min)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    Seamless ligation of pSB1C3-T7-SCVE-B0015
    Ingradients Volumn(uL)
    pSB1C3 1.2
    T7-SCVE 1
    SCVE 1
    B0015 1
    Seamless Cloning mix 8.5
    ddH2O to 20

    Incubate at 50 degree celcuis 1 h

  • PCR of OprF, SoxS
    Ingredients Volumn(uL)
    PCR Buffer 5
    Primer 1 2.5
    Primer 2 2.5
    Bacterial Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    PCR of micF-C0061
    Ingredients Volumn(uL)
    PCR Buffer 5
    micF-F-BB 2.5
    B0034-C0061-R 2.5
    Bacterial Solution 2.5
    ddH2O 31.9
    Pfu Polymerase 0.6
    dNTP mix 5

    PCR cycle including:

    1. Preheat: 94 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min 30 s)
    3. Elongation for whole at 72 degree celcius 10 mins
    4. 4 celcius degree for preserveation.
    Gel Extraction

    Material including: micF, pSB1C3

    Preparation:

    • Check out whether ethyl alcohol is added into Wash Solution.

    • Check out whether Buffer B2 has sediment.

    • Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    5 Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.

    6 Measure out the weight of tubes of gel.

    7 Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.

    8 Optional: If the length of the DNA strip is shorter than 500 bp, it would be better add isopropanol one third volume of Buffer B2.

    9 After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s.

    10 Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.

    11 Do the step 5 again.

    12 Centrifuge the empty columns at 9000xg about 1min.

    13 Open the columns and air them about 10 mins.

    14 Put the columns into clean 1.5 mL EP tubes and add 15-40uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.

    Ligation of pSB1C3-tRNA

    incubate at 16 degree celcius more than 20 h

    Ingredients Volumn(uL)
    T4 DNA ligation Buffer 2
    T4 DNA ligase 1
    pSB1C3 digested by EcoRI and PstI 1
    tRNA 6
    ddH2O 11
    Seamless Cloning of pSB1C3-micF-C0061-B0015
    Ingredients Volumn
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 2 ul
    micF 1ul
    C0061 1ul
    B0015 1ul
    ddH2O 6.5ul

    Incubate at 50℃ for 60min.

    Seamless Cloning of pSB1C3-T7-COMPX
    Ingredients Volumn
    Seamless cloning Master Mix 8.5 ul
    linear PSB1C3 plasmid 2 ul
    COMPX 1ul
    ddH2O 8.5ul

    Incubate at 50℃ for 60min.

    Transformation of pSB1C3-micF-C0061-B0015 and pSB1C3-T7-COMPX

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 500ul SOC culture, incubate at 37℃ for 45min.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
  • Construction of cheZ

    PCR of CheZ

    CheZ:

    Material(volume 50ul)

    CheZ-BB-F:1ul

    CheZ-BB-R:1ul

    Primestar:25ul

    ddH2O:21ul

    PAO1:2ul

    Divide the 50ul into 2 parts. Both are

    25ul

    PCR cycle including:

    1. Preheat: 98 degree celcius, 5min
    2. 35 cycles containing: Degradation(94 degree celcius, 30s; Annealing(55 degree celcius, 30s and elongation(72 degree celcius 1.5 min).
    3. Elongation for whole at 72 degree celcius 1min
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    CheZ(PCR)

    图片名称

    Gel Extraction

    Material including: CheZ(PCR)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 6 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Double digest of CheZ and PSB1C3

    Detect the concentration of CheZ:16.9ng/ul

    Volume:20ul

    Material:

    CheZ:15ul

    EcoRI:1ul

    PstI:2ul

    Tango:2ul

    37℃digest 2 hours.

    Detect the concentration of PSB1C3:74.1ng/ul

    Volume:20ul

    Material:

    PSB1C3:5ul

    EcoR1:1ul

    Pst1:2ul

    Tango:2ul

    ddH2O:10ul

    37℃digest 2 hours.

    Gel Electrophoresis Characterization

    CheZ(ep)

    图片名称

    PSB1C3(ep)

    图片名称

    Gel Extraction

    Material including: CheZ(ep)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Ligation of PSB1C3 and CheZ

    In order to ligate the CheZ and PSB1C3, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    C1V1/n1=C2V2/n2=……=0.1~0.3

    Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    At first, we need the mass of PSB1C3 at 50ng. The concentrate of the plasmid we use is 8.4ng/ul while the one of the CheZ is 16.7ng/ul. So we choose to add 6ul into the reaction. Through the relation of the mole of DNA, we get the volume of the CheZ.

    Material:

    CheZ:4ul

    PSB1C3:6ul

    Solution I:10ul

    16℃ligate over night, prepare for the Transformation of the next day.

    Transformation of CheZ and PSB1C3 Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Colonial PCR of CheZ

    Take one bacterial colony into 10ul H2O for the PCR.

    Protocol(volume 13ul)

    • 1μl CheZ-BB-F
    • 1μl CheZ-BB-R
    • 10μl Mix
    • 1μl Bacteria Clone

    PCR cycle including:

    1. Preheat: 98 degree celcius, 7min
    2. 35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    Failed.

    However, we incubate two of the bacteria into 50ul centrifuge tube at 37℃, we find it grow well.

    Construction of T7-SCVE

    PCR of T7 and SCVE

    Preparation:

    Add 10ul T7-F,10ul T7-R ,heating at 95 degree celcius for 30min and cool to 37 degree celcius.The mix will be used as template for the PCR.

    Material(volume 50ul)

    T7-exten-F:1ul

    T7-exten-R:1ul

    Primestar:25ul

    ddH2O:18ul

    T7 as template:5ul

    Divide the 50ul into 2 parts. Both are

    25ul

    Material(volume 50ul)

    SCVE-F:1ul

    SCVE-R:1ul

    Primestar:25ul

    ddH2O:22ul

    SCVE plasmid:1ul

    Divide the 50ul into 2 parts. Both are

    25ul

    PCR cycle including:

    1. Preheat: 98 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1 min)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.
      Gel Electrophoresis Characterization
      T7(PCR)
    Gel Electrophoresis Characterization

    T7(PCR)

    图片名称

    SCVE(PCR)

    图片名称

    Gel Extraction

    Material including: T7,SCVE(PCR)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Double digest of T7 and SCVE

    Detect the concentration of T7:35ng/ul

    Volume:20ul

    Material:

    T7:15ul

    XbaI:1ul

    HindIII:2ul

    Tango:2ul

    37℃digest 2 hours.

    Detect the concentration of SCVE:7.8ng/ul

    volume:20ul

    Material:

    SCVE:15ul

    PstI:1ul

    HindIII:1ul

    bufferR:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Detect the concentration of PSB1C3:160.2ng/ul

    Volume:20ul

    Material

    PSB1C3:5ul

    XbaI:1ul

    Pst1:2ul

    Tango:2ul

    ddH2O:10ul

    37℃digest 2 hours.

    Gel Electrophoresis Characterization

    T7(ep)

    图片名称

    SCVE(ep)

    图片名称

    PSB1C3(xp)

    图片名称

    Gel Extraction

    Material including: T7,SCVE(ep)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Ligation of PSB1C3 ,T7 and SCVE

    In order to ligate the T7,SCVE and PSB1C3, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    C1V1/n1=C2V2/n2=……=0.1~0.3

    Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    Material:

    T7:1ul

    SCVE:2ul

    PSB1C3:6ul

    Solution I:10ul

    16℃ligate over night, prepare for the Transformation of the next day.

    Transformation of T7+SCVE Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Colonial PCR of T7+SCVE

    Take one bacterial colony into 10ul H2O for the PCR.

    Protocol(volume 13ul)

    • 1μl T7-exten-F

    • 1μl T7-exten-R

    • 10μl Mix

    • 1μl Bacteria Clone

    PCR cycle including:

    1. Preheat: 98 degree celcius, 7min
    2. 35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization
    T7+SCVE

    T7-SCVE(PCR detection)

    图片名称

    Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.

    Construction of T7-OprF

    PCR of OprF

    Material(volume 50ul)

    OprF-F:1ul

    OprF-R:1ul

    Primestar:25ul

    ddH2O:21ul

    top10:2ul

    Divide the 50ul into 2 parts. Both are

    25ul

    PCR cycle including:

    1. Preheat: 98 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.
      the protocol of pcr of T7 is the same as the above
    Gel Electrophoresis Characterization

    OprF(PCR)

    图片名称

    Gel Extraction

    Material including: OprF(PCR)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Double digest of T7 and OprF

    Detect the concentration of T7:23ng/ul,OprF:40ng/ul

    Volume:20ul

    Material:

    T7:15ul

    EcoRI:1ul

    NdeI:1ul

    bufferO:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Material:

    OprF:15ul

    PstI:1ul

    NdeI:1ul

    bufferO:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Detect the concentration of PSB1C3:160.2ng/ul

    Volume:20ul

    Material

    PSB1C3:5ul

    EcoR1:1ul

    Pst1:2ul

    Tango:2ul

    ddH2O:10ul

    37℃digest 2 hours.

    Gel Electrophoresis Characterization

    OprF(ep)

    图片名称

    T7(ep)

    图片名称

    Gel Extraction

    Material including: OprF(ep)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Ligation of T7,OprF and pSB1C3

    In order to ligate the T7,OprF and PSB1C3, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    C1V1/n1=C2V2/n2=……=0.1~0.3

    Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    Material:

    T7:1ul

    OprF:2.5ul

    PSB1C3:6ul

    Solution I:10ul

    16℃ligate over night, prepare for the Transformation of the next day.

    Transformation of T7+OprF Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Colonial PCR of T7+OprF

    Take one bacterial colony into 10ul H2O for the PCR.

    Protocol(volume 13ul)

    • 1μl T7-exten-F
    • 1μl OprF-R
    • 10μl Mix
    • 1μl Bacteria Clone

    PCR cycle including:

    1. Preheat: 98 degree celcius, 7min
    2. 35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    T7-OprF

    图片名称

    Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.

    Construction of lac+cheZ

    PCR of lac and cheZ

    Material(volume 50ul)

    EcoRI-lac-F:1ul

    NdeI-lac-R:1ul

    Primestar:25ul

    ddH2O:22ul

    template:1ul

    Divide the 50ul into 2 parts. Both are

    25ul

    Material(volume 50ul)

    NdeI-cheZ-F:1ul

    PstI-his-cheZ-R:1ul

    Primestar:25ul

    ddH2O:22ul

    template:1ul

    Divide the 50ul into 2 parts. Both are

    25ul

    PCR cycle including:

    1. Preheat: 98 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.
      the protocol of pcr of T7 is the same as the above
    Gel Electrophoresis Characterization

    CheZ(PCR)

    图片名称

    R0010(PCR)

    图片名称

    Gel Extraction

    Material including: lac and cheZ(PCR)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Double digest of lac and cheZ

    Detect the concentration of lac:45ng/ul cheZ:38ng/ul

    Volume:20ul

    Material:

    R0010:15ul

    EcoRI:1ul

    NdeI:1ul

    bufferO:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Material:

    cheZ:15ul

    PstI:1ul

    NdeI:1ul

    bufferO:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Gel Electrophoresis Characterization

    R0010(np)

    图片名称

    CheZ(xn)

    图片名称

    Gel Extraction

    Material including: lac and cheZ(ep)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Ligation of lac ,cheZ and pSB1C3

    In order to ligate the lac,cheZ and PSB1C3, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    C1V1/n1=C2V2/n2=……=0.1~0.3

    Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    Material:

    lac:0.5ul

    cheZ:3.0ul

    PSB1C3:6ul

    Solution I:10ul

    16℃ligate over night, prepare for the Transformation of the next day.

    Transformation of lac+cheZ Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.
    Colonial PCR of lac+cheZ

    Take one bacterial colony into 10ul H2O for the PCR.

    Protocol(volume 13ul)

    • 1μl EcoRI-lac-F
    • 1μl NdeI-lac-R
    • 10μl Mix
    • 1μl Bacteria Clone

    PCR cycle including:

    1. Preheat: 98 degree celcius, 7min
    2. 35 cycles containing: degradation(98 degree celcius, 30s), annealing(55 degree celcius, 30s) and elongation(72 degree celcius 1.5 min)
    3. Elongation for whole at 72 degree celcius 10min.
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    lac+cheZ

    图片名称

    Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.

    Construction of micF(SoxS)-GFP

    PCR of micF(SoxS) and GFP

    Material(volume 50ul)

    micF(SoxS)-F-BB:1ul

    micF(SoxS)-E0040-R:1ul

    Primestar:25ul

    ddH2O:22ul

    template:1ul

    Divide the 50ul into 2 parts. Both are

    25ul

    Material(volume 50ul)

    E0040-F:1ul

    E0040-R:1ul

    Primestar:25ul

    ddH2O:22ul

    template:1ul

    Divide the 50ul into 2 parts. Both are

    25ul

    PCR cycle including:

    1. Preheat: 98 degree celcius, 5min
    2. 35 cycles containing: degradation(94 degree celcius, 30s; annealing(55 degree celcius, 30s and elongation(72 degree celcius 1min)
    3. Elongation for whole at 72 degree celcius 10min
    4. 4 celcius degree for preserveation.
    Gel Electrophoresis Characterization

    micF and SoxS(PCR)

    图片名称

    E0040(PCR)

    图片名称

    Gel Extraction

    Material including: micF(SoxS) and GFP(PCR)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Double digest of micF(SoxS) and GFP

    Detect the concentration of micF:100ng/ul

    SoxS:80ng/ul GFP:65ng/ul

    Volume:20ul

    Material:

    micF:15ul

    XbaI:1ul

    HindIII:1ul

    Tango buffer:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Material:

    GFP:15ul

    PstI:1ul

    HindIII:1ul

    bufferR:2ul

    ddH2O:1ul

    37℃digest 2 hours.

    Gel Electrophoresis Characterization

    micF and SoxS(xH)

    图片名称

    GFP(PH)

    图片名称

    Gel Extraction

    Material including: micF(SoxS) and GFP(ep)

    Preparation:

    •Check out whether ethyl alcohol is added into Wash Solution.

    •Check out whether Buffer B2 has sediment.

    •Adjust the thermostat water bath at 50 degree centigrade.

    Procedure:

    1. Cut up the effective bands under UV light and put the fragments into EP tubes with series numbers.
    2. Measure out the weight of tubes of gel.
    3. Add Buffer B2 3 to 6 times the volume of gel and then incubate the EP tubes in thermostat water bath about 50 degree centigrade about 10 mins.
    4. Add isopropanol one third volume of Buffer B2.
    5. After gel is all dissolved, pour the solutions into absorption columns and centrifuge columns at 8000xg about 30s, then add the solutions into the absorption columns again and centrifuge columns again.
    6. Add 500 ul wash solution in a centrifuge at 9000Xg about 30s and pour out the solution.
    7. Do the step 10 again.
    8. Centrifuge the empty columns at 9000xg about 1min.
    9. Open the columns and air them about 10 mins.
    10. Put the columns into clean 1.5 mL EP tubes and add 20uL Elution Buffer(2.5mM Tris-HCL,PH 8.5)(also can be substituted by TE or double distilled water). Stand about 1 min and then centrifuge at 9000xg about 1 min.
    Ligation of micF(SoxS), GFP and pSB1C3

    In order to ligate the micF(SoxS), GFP and PSB1C3, we need to make the equal mole proportion.

    The mole of DNA molecule is calculated in the following ways:

    C1V1/n1=C2V2/n2=……=0.1~0.3

    Among which, c is the concentration of DNA, V is the volumn required and n is the length of DNA. Because of the same molar mass of As, Gs, Cs and Ts, computation of same molar mass is omitted.

    Material:

    micF(SoxS):0.8ul

    GFP:2.0ul

    PSB1C3:6ul

    Solution I:10ul

    16℃ligate over night, prepare for the Transformation of the next day.

    Transformation of micF(SoxS)+GFP Plasmid

    Procedure:

    1. Add 4ul clone product to competent cells, 1mix well, incubate on ice for 30min.
    2. Heat in 42℃ bath for 90s. Then put on ice for 5min.
    3. Add 900ul LB culture, incubate at 37℃ for 60min. Centrifuge the culture at 4000×1min, give away 850ul culture.
    4. Spread on plate with chloramphenicol, incubate overnight at 37℃.

    Then take two bacteria colony into 50ul centrifuge tube, incubate at 37℃.

    Then take one of the positive bacteria into 50ul centrifuge tube, incubate at 37℃.

  • Pre-experiment

    Use 1ug/ml Chloromycetin activated the bacteria to test the film.

    Film test

    Film

    Film type:low-pressure polyethylene.

    Use the aerosol paint to process one of the surface of the film.

    Coating the film with 400ul 20ug/ml PLL(Poly-L-Lysine) at the temperature of 4℃ for over 4 hours.

    Bacteria solution

    Bacteria type: BL21+OprF

    Mix bacteria with PBS and make the OD~0.3.

    Sample solution

    1ug/ml Chloromycetin PBS solution.

    Inoculation

    Drop 200ul bacteria solution on the processed film for 100s

    After 100s, wash the film with wash solution twice Immediately.

    Record images

    Put the film into the sample box filled with samplw solution.

    Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.

    From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.

    Results

    Fail to get the ideal interference fringes.

    Cause reflectance is not good enough and have a small amount of diffuse reflection.

  • Pre-experiment

    Use 1ug/ml Chloromycetin activated the bacteria to test the film.

    Film

    Film type: Rubbers(Condom)

    1,Use the aerosol paint to process one of the

    surface of the film.

    Fail.Because the film shrink too much.

    2,Try silver mirror reaction.

    Fail.Because the ammonia erosion is too severe.

    Film

    Film type:glass(cover clip——thickness~0.16mm width~2.5cm longth~3.7cm)

    Use the aerosol paint to process one of the surface of the film.

    Coating the film with 400ul 20ug/ml PLL(Poly-L-Lysine) at the temperature of 4℃ for over 4 hours.

    Bacteria solution

    Bacteria type: BL21+OprF

    Mix bacteria with PBS and make the OD~0.3.

    Sample solution

    1ug/ml Chloromycetin PBS solution.

    Inoculation

    Drop 200ul bacteria solution on the processed film for 100s

    After 100s, wash the film with wash solution twice Immediately.

    Record images

    Put the film into the sample box filled with samplw solution.

    Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.

    From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.

    Results

    Succeed in getting the excellent interference fringes.

    Record data and process the image.

  • Building Calibration

    Film test

    Sample solution

    (1)5ug/ml Chloromycetin PBS solution.

    (2)0.5ug/ml Chloromycetin PBS solution.

    Bacteria solution

    Bacteria type: BL21+OprF

    Mix bacteria with PBS and make the OD~0.3.

    Inoculation

    Drop 200ul bacteria solution on the processed film for 100s

    After 100s, wash the film with wash solution twice Immediately.

    Record images

    Put the film into the sample box filled with samplw solution.

    Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.

    From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.

    Results

    Succeed in getting the excellent interference fringes.

    Record data and process the image.

    Use the Matlab to process the image.

    Get the fitting according to the modeling so get the calibration.

  • Verifying Calibration

    Film test

    Sample solution

    (1)1.8ug/ml Chloromycetin PBS solution.

    (2)3.2ug/ml Chloromycetin PBS solution.

    Bacteria solution

    Bacteria type: BL21+OprF

    Mix bacteria with PBS and make the OD~0.3.

    Inoculation

    Drop 200ul bacteria solution on the processed film for 100s

    After 100s, wash the film with wash solution twice Immediately.

    Record images

    Put the film into the sample box filled with samplw solution.

    Put the sample box in SPRING and push or pull the sample box at the recommended position, and rotate the sample box to get clear interference fringes.

    From 0s to 240s, take 2~3 pictures in a row with the time interval of 20s.

    result

    Process the gotten images and get the △N.

    Calculate the △N and get the concentration is 1.80ug/ml and 3.09ug/ml.

Contact Us

University of Science and Technology of China, No.96, JinZhai Road Baohe District,Hefei,Anhui, 230026,P.R.China.

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