Difference between revisions of "Team:Brasil-USP/Notebook/protocols"
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<h3>Table of contents</h3> | <h3>Table of contents</h3> | ||
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<li>Circuit Assembly Protocols</li> | <li>Circuit Assembly Protocols</li> | ||
<ul class="sub"> | <ul class="sub"> | ||
| − | <li><a href="#calciumchloridetransformation">Calcium chloride transformation with heat shock in Escherichia coli DH5α</a></li> | + | <li><a href="#calciumchloridetransformation">Calcium chloride transformation with heat shock in <i>Escherichia coli</i> DH5α</a></li> |
<li><a href="#plasmidextraction">Plasmid extraction </a></li> | <li><a href="#plasmidextraction">Plasmid extraction </a></li> | ||
<li><a href="#digestion">Digestion of plasmidial DNA</a></li> | <li><a href="#digestion">Digestion of plasmidial DNA</a></li> | ||
<li><a href="#ligationreactioncohesive">Ligation reaction (Cohesive ends)</a></li> | <li><a href="#ligationreactioncohesive">Ligation reaction (Cohesive ends)</a></li> | ||
<li><a href="#agarosegeleletro">Agarose Gel Electrophoresis </a></li> | <li><a href="#agarosegeleletro">Agarose Gel Electrophoresis </a></li> | ||
| − | <li><a href="#directedmutagenesispcr">Directed mutagenesis PCR | + | <li><a href="#directedmutagenesispcr">Directed mutagenesis PCR for restriction site elimination using a plasmid template </a></li> |
<li><a href="#pcramplification1">PCR amplification (applied to lcp)</a></li> | <li><a href="#pcramplification1">PCR amplification (applied to lcp)</a></li> | ||
<li><a href="#pcramplification2">PCR amplification for difficult amplicons (applied to roxA)</a></li> | <li><a href="#pcramplification2">PCR amplification for difficult amplicons (applied to roxA)</a></li> | ||
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| − | + | <h1><font color=#22cc2c>Calcium chloride transformation with heat shock in <i>Escherichia coli</i> DH5α</font></h1> | |
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<br> | <br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
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<li>Incubate at 37°C, 250 rpm for 45 min;</li> | <li>Incubate at 37°C, 250 rpm for 45 min;</li> | ||
<li> Plate the liquid LB containing the bacterial suspension on a LB agar plate with the appropriate antibiotic;</li> | <li> Plate the liquid LB containing the bacterial suspension on a LB agar plate with the appropriate antibiotic;</li> | ||
| − | <li>Incubate overnight (14- 16h) at 37°C.</li> | + | <li>Incubate overnight (14-16h) at 37°C.</li> |
</ul> | </ul> | ||
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| − | < | + | <!-- START THE FEATURETTES --> |
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<div class="row featurette last"> | <div class="row featurette last"> | ||
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<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Plasmid extraction </h1> | + | <h1><font color=#22cc2c>Plasmid extraction </font></h1> |
<br><br> | <br><br> | ||
<p>PureLink® Quick Plasmid Miniprep Kit-Life Technologies</p> | <p>PureLink® Quick Plasmid Miniprep Kit-Life Technologies</p> | ||
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<ul> | <ul> | ||
<li>Cell Growth</li> | <li>Cell Growth</li> | ||
| − | <ul>  After isolating a single colony from a LB agar plate, grow it in 6 mL of liquid LB within the appropriate antibiotic. Incubate overnight (14-16h) at 37°C in a shaking incubator.</ul> | + | <ul>   After isolating a single colony from a LB agar plate, grow it in 6 mL of liquid LB within the appropriate antibiotic. Incubate overnight (14-16h) at 37°C in a shaking incubator.</ul> |
<li>Resuspension</li> | <li>Resuspension</li> | ||
| − | <ul>  Pellet the overnight culture in a 2 mL microtube and discard the supernatant. Repeat this step until the total liquid culture is finished. Resuspend the cell pellet in 240 μL of resuspension buffer by vortexing.</ul> | + | <ul>   Pellet the overnight culture in a 2 mL microtube and discard the supernatant. Repeat this step until the total liquid culture is finished. Resuspend the cell pellet in 240 μL of resuspension buffer by vortexing.</ul> |
<li>Lysis</li> | <li>Lysis</li> | ||
| − | <ul>Add 250 μL of the Lysis buffer. Mix by inversion 4-8 times and incubate at 37°C for 3-5 minutes. Do not exceed this period. | + | <ul>   Add 250 μL of the Lysis buffer. Mix by inversion 4-8 times and incubate at 37°C for 3-5 minutes. Do not exceed this period. |
</ul> | </ul> | ||
<li>Neutralization</li> | <li>Neutralization</li> | ||
| − | <ul>Add 350 μL of the neutralization solution. Mix by inversion 4-8 times and incubate at 37°C for 3-5 minutes. Do not exceed this time. Centrifuge at 16000 g for 10 minutes. | + | <ul>   Add 350 μL of the neutralization solution. Mix by inversion 4-8 times and incubate at 37°C for 3-5 minutes. Do not exceed this time. Centrifuge at 16000 g for 10 minutes. |
</ul> | </ul> | ||
<li>Washing</li> | <li>Washing</li> | ||
| − | <ul> | + | <ul>   Transfer the supernatant to a new 1.5 mL microtube with the resin. Be careful not to transfer the white pellet. |
Add 650 μL of Wash buffer. Centrifuge at 16000 g for 1 minute. Discard the supernatant. Centrifuge again for 2-4 min to remove ethanol remains. | Add 650 μL of Wash buffer. Centrifuge at 16000 g for 1 minute. Discard the supernatant. Centrifuge again for 2-4 min to remove ethanol remains. | ||
</ul> | </ul> | ||
<li>Elution of plasmidial DNA</li> | <li>Elution of plasmidial DNA</li> | ||
| − | <ul>Put the resin in a new 1.5 mL microtube. Add 50 μL of nuclease free water at 65°C. Centrifuge at 16000 g for 3 minutes and discard the resin. Store DNA at -20°C. | + | <ul>   Put the resin in a new 1.5 mL microtube. Add 50 μL of nuclease free water at 65°C. Centrifuge at 16000 g for 3 minutes and discard the resin. Store DNA at -20°C. |
</ul> | </ul> | ||
</ul> | </ul> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Digestion of plasmidial DNA</h1> | + | <h1><font color=#22cc2c>Digestion of plasmidial DNA</font></h1> |
<br> | <br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
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<li>Nuclease free water.</li> | <li>Nuclease free water.</li> | ||
</ul> | </ul> | ||
| − | <br> | + | <br><br> |
<h2>Methodology</h2> | <h2>Methodology</h2> | ||
<br> | <br> | ||
<ul> | <ul> | ||
<li>On ice, prepare the following mixture in a microtube:</li> | <li>On ice, prepare the following mixture in a microtube:</li> | ||
| − | <ul>500 -1000 ng of plasmidial DNA</ul> | + | <ul>   - 500 -1000 ng of plasmidial DNA</ul> |
| − | <ul>1 μL of Restriction Enzyme 1</ul> | + | <ul>   - 1 μL of Restriction Enzyme 1</ul> |
| − | <ul>1 μL of Restriction Enzyme 2 (if necessary)</ul> | + | <ul>   - 1 μL of Restriction Enzyme 2 (if necessary)</ul> |
| − | <ul>2 μL of 10x FastDigest Buffer</ul> | + | <ul>   - 2 μL of 10x FastDigest Buffer</ul> |
| − | <ul>Nuclease free water to complete 20 μL</ul> | + | <ul>   - Nuclease free water to complete 20 μL</ul> |
<li>Spin the mixture.</li> | <li>Spin the mixture.</li> | ||
<li>Incubate at 37°C for at least 3 hours.</li> | <li>Incubate at 37°C for at least 3 hours.</li> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Ligation reaction (Cohesive ends)</h1> | + | <h1><font color=#22cc2c>Ligation reaction (Cohesive ends)</font></h1> |
| − | <br> | + | <br><br> |
| − | <p> | + | <p>Reference: https://www.neb.com/protocols/1/01/01/dna-ligation-with-t4-dna-ligase-m0202</p> |
<br><br> | <br><br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
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<li>T4 DNA Ligase (Thermo Scientific);</li> | <li>T4 DNA Ligase (Thermo Scientific);</li> | ||
<li>Nuclease free water.</li> | <li>Nuclease free water.</li> | ||
| + | <br> | ||
<h2>Methodology</h2> | <h2>Methodology</h2> | ||
<br> | <br> | ||
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<label>* The T4 DNA Ligase Buffer should be thawed and resuspended at room temperature.</label> | <label>* The T4 DNA Ligase Buffer should be thawed and resuspended at room temperature.</label> | ||
<label>q.s. = quantum sufficit</ul> | <label>q.s. = quantum sufficit</ul> | ||
| − | <label>** | + | <label>** <center>\[ ng_{insert} =\left (\frac{kb_{insert}}{kb_{vector}} \right )\left (ng_{vector} \right )\left (ratio \right )\]</center> ratio was considered to be 3, but it can vary according to the vector</label> |
| − | <li>For cohesive ends, incubate at 22°C for 3 hours + 16°C for 9 hours.</li> | + | <li>For cohesive ends, incubate at 22°C for 3 hours + 16°C for 9 hours;</li> |
| + | <li>Heat shock in <i>E. coli</i> DH5α with 10 μl of the reaction.</li> | ||
</ul> | </ul> | ||
<br> | <br> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Agarose Gel Electrophoresis </h1> | + | <h1><font color=#22cc2c>Agarose Gel Electrophoresis </font></h1> |
<br> | <br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
<br> | <br> | ||
<ul> | <ul> | ||
| − | <li>1X TAE Buffer | + | <li>1X TAE Buffer;</li> |
<li>Electrophoresis apparatus (cell, gasket, power supply, gel caster and comb; BIO-RAD - http://www.bio-rad.com/cmc_upload/Literature/38717/M1704400B.PDF);</li> | <li>Electrophoresis apparatus (cell, gasket, power supply, gel caster and comb; BIO-RAD - http://www.bio-rad.com/cmc_upload/Literature/38717/M1704400B.PDF);</li> | ||
<li>Gel analysis and documentation equipement (Gel Doc<sup>TM</sup> EZ System, BIO-RAD);</li> | <li>Gel analysis and documentation equipement (Gel Doc<sup>TM</sup> EZ System, BIO-RAD);</li> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Directed mutagenesis PCR | + | <h1><font color=#22cc2c>Directed mutagenesis PCR for restriction site elimination using a plasmid template</font></h1> |
<br><br> | <br><br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
| Line 267: | Line 251: | ||
<br> | <br> | ||
<ul> | <ul> | ||
| − | <li>In a thermal cycler (BIO-RAD) set the | + | <li>In a thermal cycler (BIO-RAD) set the following steps:</li> |
<ul>First (1X): 95°C for 3 min;</ul> | <ul>First (1X): 95°C for 3 min;</ul> | ||
<ul>Second (18X): 95°C for 30s; 60°C for 30s (primers T<sub>m</sub>); 72°C for 5 min (15-30s per kb - pUC9::roxA : 4462 bp)</ul> | <ul>Second (18X): 95°C for 30s; 60°C for 30s (primers T<sub>m</sub>); 72°C for 5 min (15-30s per kb - pUC9::roxA : 4462 bp)</ul> | ||
| Line 274: | Line 258: | ||
<li>Run a gel electrophoresis to analysis (10 μl) and purification (all remainder reaction);</li> | <li>Run a gel electrophoresis to analysis (10 μl) and purification (all remainder reaction);</li> | ||
<li>Prepare a DNA digestion with only DpnI enzyme (Thermo Scientific);</li> | <li>Prepare a DNA digestion with only DpnI enzyme (Thermo Scientific);</li> | ||
| − | <li>Heat shock in E. coli DH5α with 10 μl of the digest reaction;</li> | + | <li>Heat shock in <i>E. coli</i> DH5α with 10 μl of the digest reaction;</li> |
<li>Do minipreps with some colonies;</li> | <li>Do minipreps with some colonies;</li> | ||
<li>Confirm the mutation with a digest reaction with two enzymes, one vector site containing and with the desired mutation site. Confirm with a gel electrophoresis. </li> | <li>Confirm the mutation with a digest reaction with two enzymes, one vector site containing and with the desired mutation site. Confirm with a gel electrophoresis. </li> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>PCR amplification (applied to lcp)</h1> | + | <h1><font color=#22cc2c>PCR amplification (applied to lcp)</font></h1> |
<br> | <br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
| Line 311: | Line 295: | ||
<li>In a thermal cycler (BIO-RAD) set the following steps :</li> | <li>In a thermal cycler (BIO-RAD) set the following steps :</li> | ||
<ul>First (1X): 95°C for 3 min;</ul> | <ul>First (1X): 95°C for 3 min;</ul> | ||
| − | <ul>Second (30X): 95°C for 30s; 57°C for 30s; 72°C for 2 min (1-2 min per kb - | + | <ul>Second (30X): 95°C for 30s; 57°C for 30s; 72°C for 2 min (1-2 min per kb - lcp : 1128 bp);</ul> |
<ul>Third (1X): 72°C for 10min;</ul> | <ul>Third (1X): 72°C for 10min;</ul> | ||
<ul>Hold in 4°C.</ul> | <ul>Hold in 4°C.</ul> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>PCR amplification for difficult amplicons (applied to roxA)</h1> | + | <h1><font color=#22cc2c>PCR amplification for difficult amplicons (applied to roxA)</font></h1> |
<br><br> | <br><br> | ||
<h2>Materials</h2> | <h2>Materials</h2> | ||
| Line 363: | Line 347: | ||
<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Gibson assembly</h1> | + | <h1><font color=#22cc2c>Gibson assembly</font></h1> |
<br><br> | <br><br> | ||
<p>For complete protocol : https://www.neb.com/products/e2621-nebuilder-hifi-dna-assembly-master-mix</p> | <p>For complete protocol : https://www.neb.com/products/e2621-nebuilder-hifi-dna-assembly-master-mix</p> | ||
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<br> | <br> | ||
<br> | <br> | ||
| − | <li> | + | <li>Reaction</li> |
| − | <img src=https://static.igem.org/mediawiki/2015/a/a2/BrasilUSPtabelaprotocols2.png width=¨50¨/> | + | <center><img src=https://static.igem.org/mediawiki/2015/a/a2/BrasilUSPtabelaprotocols2.png width=¨50¨/></center> |
<br> | <br> | ||
| − | <ul> | + | <ul>\[ ng_{insert} =\left (\frac{kb_{insert}}{kb_{vector}} \right )\left (ng_{vector} \right )\left (ratio \right )\] Ratio for inserts smaller than 200bp (1:5); for inserts bigger than 200bp use 1:5. Recommended 0.03 - 0.2 pmol; pmol \[ gBlock =\left (\frac{weight}{bp x 650 Daltons} \right )\left (1000 \right )\] |
| + | use weight in ng</ul> | ||
| + | <li> Incubate at 50°C for 15 minutes;</li> | ||
| + | <li>Heat shock in <i>E. coli</i> DH5α with 10 μl of the reaction.</li> | ||
</ul> | </ul> | ||
<br> | <br> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Pre-inoculum</h1> | + | <h1><font color=#22cc2c>Pre-inoculum</font></h1> |
<br><br> | <br><br> | ||
<h2>Methodology</h2> | <h2>Methodology</h2> | ||
<br> | <br> | ||
<ul> | <ul> | ||
| − | <li>E. coli cells transformed were plated on LB agar (Sigma) plates supplemented with antibiotic:</li> | + | <li><i>E. coli</i> cells transformed were plated on LB agar (Sigma) plates supplemented with antibiotic:</li> |
<ul>chloramphenicol (34 ug/ul) or ampicillin (100ug/ul)</ul> | <ul>chloramphenicol (34 ug/ul) or ampicillin (100ug/ul)</ul> | ||
<li>Grown for 18-20 hours at 37°C.</li> | <li>Grown for 18-20 hours at 37°C.</li> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Plate Reader</h1> | + | <h1><font color=#22cc2c>Plate Reader</font></h1> |
<br> | <br> | ||
<h2>Optical Density</h2> | <h2>Optical Density</h2> | ||
| Line 466: | Line 453: | ||
<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Flow Cytometer</h1> | + | <h1><font color=#22cc2c>Flow Cytometer</font></h1> |
<br><br> | <br><br> | ||
<h2>Methodology</h2> | <h2>Methodology</h2> | ||
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<div class="col-md-12"> | <div class="col-md-12"> | ||
<h2 class="featurette-heading"> | <h2 class="featurette-heading"> | ||
| − | <h1>Western Blotting</h1> | + | <h1><font color=#22cc2c>Western Blotting</font></h1> |
<br> | <br> | ||
<h2>SDS-PAGE running buffer</h2> | <h2>SDS-PAGE running buffer</h2> | ||
Latest revision as of 23:52, 20 November 2015
Protocols
Notebook
Table of contents
- Circuit Assembly Protocols
- Calcium chloride transformation with heat shock in Escherichia coli DH5α
- Plasmid extraction
- Digestion of plasmidial DNA
- Ligation reaction (Cohesive ends)
- Agarose Gel Electrophoresis
- Directed mutagenesis PCR for restriction site elimination using a plasmid template
- PCR amplification (applied to lcp)
- PCR amplification for difficult amplicons (applied to roxA)
- Gibson assembly
- Characterization Protocols
Calcium chloride transformation with heat shock in Escherichia coli DH5α
Materials
- Sterile LB agar plate supplemented with the appropriate antibiotic (ampicillin 100 μg ml-1 or chloramphenicol 34 μg ml-1 - SIGMA-ALDRICH®);
- Sterile liquid LB media (SIGMA-ALDRICH®);
- Competent DH5α cells (Novagen) prepared through heat shock with calcium chloride;
- Plasmidial DNA.
Methodology
- Put the 0.5 mL microtube containing 50 μL competent cells aliquot on ice;
- Add 20-50 ng of plasmidial DNA or 10 μL of ligation reaction to the competent cells. Mix by pipetting carefully;
- Place the tube into a 42°C water bath for 2 min;
- Return the tube to the ice for 5 min;
- Add 200 μL of liquid LB;
- Incubate at 37°C, 250 rpm for 45 min;
- Plate the liquid LB containing the bacterial suspension on a LB agar plate with the appropriate antibiotic;
- Incubate overnight (14-16h) at 37°C.
Plasmid extraction
PureLink® Quick Plasmid Miniprep Kit-Life Technologies
Methodology
- Cell Growth
- Resuspension
- Lysis
- Neutralization
- Washing
- Elution of plasmidial DNA
- After isolating a single colony from a LB agar plate, grow it in 6 mL of liquid LB within the appropriate antibiotic. Incubate overnight (14-16h) at 37°C in a shaking incubator.
- Pellet the overnight culture in a 2 mL microtube and discard the supernatant. Repeat this step until the total liquid culture is finished. Resuspend the cell pellet in 240 μL of resuspension buffer by vortexing.
- Add 250 μL of the Lysis buffer. Mix by inversion 4-8 times and incubate at 37°C for 3-5 minutes. Do not exceed this period.
- Add 350 μL of the neutralization solution. Mix by inversion 4-8 times and incubate at 37°C for 3-5 minutes. Do not exceed this time. Centrifuge at 16000 g for 10 minutes.
- Transfer the supernatant to a new 1.5 mL microtube with the resin. Be careful not to transfer the white pellet.
Add 650 μL of Wash buffer. Centrifuge at 16000 g for 1 minute. Discard the supernatant. Centrifuge again for 2-4 min to remove ethanol remains.
- Put the resin in a new 1.5 mL microtube. Add 50 μL of nuclease free water at 65°C. Centrifuge at 16000 g for 3 minutes and discard the resin. Store DNA at -20°C.
Digestion of plasmidial DNA
Materials
- Plasmidial DNA;
- Restriction Enzyme 1: EcoRI or XbaI (FastDigest Thermo Scientific);
- Restriction Enzyme 2: SpeI or PstI (FastDigest Thermo Scientific);
- FastDigest Buffer (Thermo Scientific);
- Nuclease free water.
Methodology
- On ice, prepare the following mixture in a microtube:
- 500 -1000 ng of plasmidial DNA
- 1 μL of Restriction Enzyme 1
- 1 μL of Restriction Enzyme 2 (if necessary)
- 2 μL of 10x FastDigest Buffer
- Nuclease free water to complete 20 μL
- Spin the mixture.
- Incubate at 37°C for at least 3 hours.
- Perform agarose gel electrophoresis to confirm the results
- - 500 -1000 ng of plasmidial DNA
- - 1 μL of Restriction Enzyme 1
- - 1 μL of Restriction Enzyme 2 (if necessary)
- - 2 μL of 10x FastDigest Buffer
- - Nuclease free water to complete 20 μL
Ligation reaction (Cohesive ends)
Reference: https://www.neb.com/protocols/1/01/01/dna-ligation-with-t4-dna-ligase-m0202
Materials
- Vector DNA digested;
- Insert DNA digested;
- 10X T4 DNA Ligase Buffer* (Thermo Scientific);
- T4 DNA Ligase (Thermo Scientific);
- Nuclease free water.
- Set up the following reaction in a microcentrifuge tube on ice:
- For cohesive ends, incubate at 22°C for 3 hours + 16°C for 9 hours;
- Heat shock in E. coli DH5α with 10 μl of the reaction.
Methodology
Agarose Gel Electrophoresis
Materials
- 1X TAE Buffer;
- Electrophoresis apparatus (cell, gasket, power supply, gel caster and comb; BIO-RAD - http://www.bio-rad.com/cmc_upload/Literature/38717/M1704400B.PDF);
- Gel analysis and documentation equipement (Gel DocTM EZ System, BIO-RAD);
- UV light box
- DNA ladder (Invitrogen or Thermo Scientific);
- 10X Loading Buffer (Invitrogen);
- Ethidium bromide (Promega);
- x% (mass/volume) agarose gel (the concentration varies with the size of the DNA sample; 1.2% is recommended to short DNA fragments - smaller than 200bp - and 0.8% is recommended to high length of DNA)
Methodology
- Agarose gel: Mixture 1X TAE with agarose (1.2 or 0.8 grams for each 100ml of buffer depending of x% agarose) and melting the mixture. Add ethidium bromide and after, transfer the melted gel into a gasket in a gel caster support with an appropriate comb);
- Prepare samples by diluting in loading buffer to approximately 1X or higher;
- Load the DNA ladder into the first well of the gel and the samples into the additional wells;
- Transfer gel to a cell and apply DNA ladder and samples;
- Run the gel for about 40 minutes at 100 volts;
- Do analysis (in Gel Doc equipment) or cut the gel (UV light box).
Directed mutagenesis PCR for restriction site elimination using a plasmid template
Materials
- 1 μl of 10 ng/μl DNA template;
- 5 μl of each primer forward and reverse (diluted to 20μM) previously designed and purchased;
- 1 μl of dNTP mixture 10mM;
- 10 μl Phusion HF 5X buffer (NEB) with MgCl2;
- 1 μl High Fidelity enzyme (2.5U μl-1, NEB);
- Sterile deionized water to 50 μl.
Methodology
- In a thermal cycler (BIO-RAD) set the following steps:
First (1X): 95°C for 3 min;
Second (18X): 95°C for 30s; 60°C for 30s (primers Tm); 72°C for 5 min (15-30s per kb - pUC9::roxA : 4462 bp)
Third (1X): 72°C for 15min;
Hold in 4°C.
- Run a gel electrophoresis to analysis (10 μl) and purification (all remainder reaction);
- Prepare a DNA digestion with only DpnI enzyme (Thermo Scientific);
- Heat shock in E. coli DH5α with 10 μl of the digest reaction;
- Do minipreps with some colonies;
- Confirm the mutation with a digest reaction with two enzymes, one vector site containing and with the desired mutation site. Confirm with a gel electrophoresis.
Methodology
- In a thermal cycler (BIO-RAD) set the following steps:
- Run a gel electrophoresis to analysis (10 μl) and purification (all remainder reaction);
- Prepare a DNA digestion with only DpnI enzyme (Thermo Scientific);
- Heat shock in E. coli DH5α with 10 μl of the digest reaction;
- Do minipreps with some colonies;
- Confirm the mutation with a digest reaction with two enzymes, one vector site containing and with the desired mutation site. Confirm with a gel electrophoresis.
- First (1X): 95°C for 3 min;
- Second (18X): 95°C for 30s; 60°C for 30s (primers Tm); 72°C for 5 min (15-30s per kb - pUC9::roxA : 4462 bp)
- Third (1X): 72°C for 15min;
- Hold in 4°C.
PCR amplification (applied to lcp)
Materials
- 1μl DNA template at 10 ng μl-1;
- 5μl of each primers forward and reverse (diluted to 20μM) previously designed and purchased;
- 1μl of dNTP mixture 10mM;
- 5μl High Fidelity 10X buffer (Thermo scientific) with MgCl2;
- 2.5μl BSA protein (Promega);
- 0.5μl High fidelity enzyme (2.5 U μl-1, Thermo Scientific);
- Sterile deionized water quantum sufficit for 50 μl.
Methodology
- In a thermal cycler (BIO-RAD) set the following steps :
First (1X): 95°C for 3 min;
Second (30X): 95°C for 30s; 57°C for 30s; 72°C for 2 min (1-2 min per kb - lcp : 1128 bp);
Third (1X): 72°C for 10min;
Hold in 4°C.
- Run a gel electrophoresis to analysis (3 μl) and purification (all remainder reaction).
- First (1X): 95°C for 3 min;
- Second (30X): 95°C for 30s; 57°C for 30s; 72°C for 2 min (1-2 min per kb - lcp : 1128 bp);
- Third (1X): 72°C for 10min;
- Hold in 4°C.
PCR amplification for difficult amplicons (applied to roxA)
Materials
- 1μl DNA template at about 300 ng μl-1;
- 1.25 μl of each primer forward and reverse (diluted to 20μM) previously designed and purchased;
- 25 μl Q5 High-Fidelity 2X Master Mix (NEB);
- Sterile deionized water quantum sufficit for 50 μl.
Methodology
- In a thermal cycler (BIO-RAD) set the following steps :
First (1X): 98°C for 30s;
Second (30X): 95°C for 10 s; 63°C for 30s (primers Tm calculated by NEB TM calculator - http://tmcalculator.neb.com/#!/); 72°C for 1min (20-30s per kb);
Third (1X): 72°C for 2min;
Hold in 4°C.
- Run a gel electrophoresis to analysis (3 μl) and purification (all remainder reaction)
Methodology
- In a thermal cycler (BIO-RAD) set the following steps :
- Run a gel electrophoresis to analysis (3 μl) and purification (all remainder reaction)
- First (1X): 98°C for 30s;
- Second (30X): 95°C for 10 s; 63°C for 30s (primers Tm calculated by NEB TM calculator - http://tmcalculator.neb.com/#!/); 72°C for 1min (20-30s per kb);
- Third (1X): 72°C for 2min;
- Hold in 4°C.
Gibson assembly
For complete protocol : https://www.neb.com/products/e2621-nebuilder-hifi-dna-assembly-master-mix
Methodology
- \[ ng_{insert} =\left (\frac{kb_{insert}}{kb_{vector}} \right )\left (ng_{vector} \right )\left (ratio \right )\] Ratio for inserts smaller than 200bp (1:5); for inserts bigger than 200bp use 1:5. Recommended 0.03 - 0.2 pmol; pmol \[ gBlock =\left (\frac{weight}{bp x 650 Daltons} \right )\left (1000 \right )\]
use weight in ng
Pre-inoculum
Methodology
- E. coli cells transformed were plated on LB agar (Sigma) plates supplemented with antibiotic:
chloramphenicol (34 ug/ul) or ampicillin (100ug/ul)
- Grown for 18-20 hours at 37°C.
- Tip 1 colony from the LB agar plates into independent sterile tubes with 5 ml of LB media (1:4) containing antibiotic
- Repeat the previous step twice for 2 different colonies to obtain biological replicate.
- Grown overnight (14 - 16 hours) at 37°C, 80 - 300 rpm.
- chloramphenicol (34 ug/ul) or ampicillin (100ug/ul)
Plate Reader
Optical Density
- Using a clear, flat- or round-bottomed, 96-well plate we measured optical density at 600 nm (OD600).
Methodology
- In each well add LB and pre-inoculum
usually in a proportion 1:10 we obtained OD600 ~ 0.1 with the previous pre-inoculum conditions
- Measure OD600
- If necessary, adjust LB:pre-inoculum proportion to the proper OD600.
- Constitutive promoter: measure OD600
- Inducible promoter: add inducer and measure OD600 in time (8-12 hours)
Fluorescence
- Using a black, flat-bottomed, 96-well plate we measured fluorescence adjusting excitation and emission wavelength according to the fluorescent molecule.
Methodology
- In each well add LB and pre-inoculum
usually in a proportion 1:10 we obtained OD600 ~ 0.1 with the previous pre-inoculum conditions
- Measure OD600
- If necessary, adjust LB:pre-inoculum proportion to the proper OD600.
- Constitutive promoter: measure OD600
- Inducible promoter: add inducer and measure OD600 in time (8-12 hours)
- Induction response must be observed in time due to cellular growth and consequent gene expression. Induction during the mid-log phase of growth might maximize protein expression
- usually in a proportion 1:10 we obtained OD600 ~ 0.1 with the previous pre-inoculum conditions
- usually in a proportion 1:10 we obtained OD600 ~ 0.1 with the previous pre-inoculum conditions
Flow Cytometer
Methodology
- Diluted cultured bacteria to approximately 8 x 106 bacteria mL-1 or OD600 of ~ 0.01 (cell concentration must be in the range of 1x106 to 2 x 107 bacteria mL-1 according to the equipment manufacturer’s recommendation).
- Wash twice with phosphate buffer saline (PBS) at centrifugation 5000 g for 5 minutes.
- Remove the supernatant
- Resuspended the pellet in sheath fluid, same volume as used to obtain OD600 of 0.01.
- Constitutive promoter: measure fluorescence using the appropriate channel
- Inducible promoter: we previously induced the cultured bacteria and used non-induced cultures as control.
Western Blotting
SDS-PAGE running buffer
- 25mM Tris
- 190 mM glycine
- 0.1% SDS
- Check the pH and adjust to pH 8.3
Transfer buffer
- 25mM Tris
- 190mM glycine
- 20% methanol
- Check the pH and adjust to pH 8.3
Ponceau S staining buffer
- 20mM Tris pH 7.5
- 150mM NaCl
Tris-buffered saline Tween 20 (TBST) buffer
- 20mM Tris pH 7.5
- 150mM NaCl
- 0.1% Tween 20
Blocking buffer
- 5% milk in TBST
- Separate the protein sample using electrophoresis gel. Apply the samples with a multicolor broad range marker to ensure the transference.
- Place the gel in 1x transfer for 15 minutos.
- Assemble the transfer sandwich as shown in the image below.
- Place the cassette in a transfer tank and place a ice block in the tank.
- Transfer for 1 hour, 100V, 350mA.
- Stain the blot in ponceau staining buffer to check the transfer quality.
- Rinse of the ponceau with 3 washes with 1x TBST.
- Block with 5% milk in TBST for 1 hour at room temperature.
- Rinse the blot 3 to 5 times with 1x TBST.
- Incubate with the primary antibody solution (anti His-tag) for 3 hours at room temperature.
- Rinse the blot 3 to 5 times with 1x TBST.
- Incubate with the HRP-conjugated secondary antibody for 1 hour at room temperature.
- Rinse the blot 3 to 5 times with 1x TBST.
- Treat the membrane with luminol solution (6ml luminol, 20μl peroxidase).
- Capture the luminescent signals with a CCD camera-based imager.
- Use an image analysis to read the band intensity of the target proteins.