Difference between revisions of "Team:Paris Bettencourt/Notebook/VitaminB2"
Line 515: | Line 515: | ||
<br><br><b>22/07</b><br><br> | <br><br><b>22/07</b><br><br> | ||
<b>Transformation results</b> | <b>Transformation results</b> | ||
− | <table style="width= | + | <table style="width=100%"> |
<tr> | <tr> | ||
<td><b>Transformed product</b></td> | <td><b>Transformed product</b></td> | ||
Line 526: | Line 526: | ||
<tr> | <tr> | ||
<td> </td> | <td> </td> | ||
− | <td>(ery 150µg/mL)500 colonies, no background</td> | + | <td><ul><li>(ery 150µg/mL): |
+ | <br>500 colonies, no background</ul></td> | ||
<td><ul> | <td><ul> | ||
− | |||
− | |||
<li>(ery 10µg/mL):<br> | <li>(ery 10µg/mL):<br> | ||
− | no growth</td> | + | no growth |
+ | <li>(ery 150µg/mL):<br> | ||
+ | lawn of bacteria</ul></td> | ||
<td> | <td> | ||
<ul> | <ul> | ||
<li>spreading of 170µL:<br> | <li>spreading of 170µL:<br> | ||
− | + | 41 isolated colonies -> isolation of three transformants: T1, T2 and T3 | |
<li>spreading of 50µL:<br> | <li>spreading of 50µL:<br> | ||
− | + | 3 colonies on a lawny background | |
</ul> | </ul> | ||
</td> | </td> | ||
− | <td> | + | <td><ul> |
− | + | <li>(ery 10µg/mL):<br> | |
− | + | lawn of bacteria | |
− | + | <li>(ery 150µg/mL):<br> | |
− | + | lawny background</ul> | |
− | + | </td> | |
− | + | <td> no growth </td> | |
− | + | ||
− | + | ||
− | + | ||
− | </ | + | |
− | <td> no growth</td> | + | |
</tr> | </tr> | ||
</table> | </table> |
Revision as of 12:54, 12 August 2015
13/07
Almost no difference between the PCR and their corresponding negative control.
It could be the fallout of the limited number of cycles. (We only used 12 cycles, as advised by IDT)
NEB Tm calculator gave really different Tm for the PCR primers than Geneious and IDT.
We decided to launch two PCR, both with 35 cycles, but with two different annealing
temperature: 52 and 64°C.
14/07
Launched the two different PCR with different Tm.
PCR with high annealing temperature, 35 cycles:
PCR with low annealing temperature, 35 cycles:
After PCR, we ran the PCR products on a TAE - 1% agarose gel (100V, 20min) to check
if the amplification product correspond to the expected size of the gBlocks.
The bands are not really specific and seems to be smeared over the gel.
However, we can see that the extremity of each band correspond approximatively
to the expected size of our parts, except RibD amplified at 64°C for which no band has been detected. We purified our PCR product according to the previously used protocol,
and then measure the DNA concentration using a Nanodrop.
16/07
Annealing of o15.011 (TCGACCATGCTTGTCTTCGAAGACTTGGGGGAT) and o15.012 (CTAGATCCCCCAAGTCTTCGAAGACAAGCATGG) using the following protocol:
Inoculate LB + erythromycin (150ng/μL) with g15.21 containing pKV6.
Inoculate M17 + erythromycin (10ng/μL) with g15.13 containing pSIP411.
17/07
Miniprep of g15.13 and g15.21 as describe below:
As g15.13 is a gram positive bacteria, we added 1mL of 10mg/mL Lysozyme at the same time that the cell lysis solution.
Measurement of DNA concentration
20/07
-Annealing of o15.072 (TCGACCATGCTTGTCTTCGAAGACTTGGGGGAG) and o15.073 (AATTCTCCCCCAAGTCTTCGAAGACAAGCATGG) thanks to the protocol used previously. -PCR of pSIP411 ORI and resistance cassette (erythromycin) using o15.070 and o15.071. We will call it pSIPnew to write clearer explanations. The size of this fragment is 3.1kb, so the elongation phase was extended to 2min. a negative PCR control was made at the same time (without matrix DNA). PCR purification after the PCR and concentration measurement:
21/07
Digestion of amplified band of pSIPnew and pKV6 with respectively XbaI/SalI and EcoRI/SalI using the following protocol.
For pSIPnew: SalI and XbaI, 30μL of DNA (99ng/μL), 66μL of water.
For pKV6: SalI and EcoRI, 10μL of DNA(270ng/μL), 86μL of water.
PCR purification of both digested pKV6 and pSIPnew
Measure the DNA concentration after PCR purification:
Ligation of annealed oligos o15.011 and o15.012 with digested pSIP411new and o15.072 and o15.073 with digested pKV6 using the following protocol
For pKV6: 4µL of digested pKV6(26.4ng/µL), 7µL of annealed o15.072/o15.073, 6µL of water.
For pSIPnew: 2µL of digested pKV6(60.8ng/µL), 6µL of annealed o15.011/o15.012, 9µL of water.
pKV6 ligated with o15.072/o15.073 and pSIPnew ligated with o15.011/o15.012 will be respectively called p15.01 and p15.02.
Transformation of p15.01, p15.02, pKV6(miniprep), pSIP411(miniprep) and a negative control (no DNA) in NEB DH5α chemically competent cells
22/07
Transformation results
23/07
Preparation of DH5α Electrocompetent cells, 50 tubes of 100µL.
overnight cultures of 3 p15.01 transformants.
24/07
Miniprep of the 3 overnight cultures of p15.01 transformants T1, T2 and T3(respective concentration: 204.8, 160.7 and 267.7 ng/µL).
Digestion of pKV6(negative control) and p15.01 with BbsI and Eco31I to control the insertion of the two BbsI sites in p15.01.
HERE IS THE PICTURE OF THE CORRESPONDING GEL
Both T2 and T3 transformants present the same bands as pKV6, whereas T1 shows 3 bands at 2.7kb, 1.7kb and 1.4kb.
We then sequenced the T1 transformants to have a confirmation of the gel results.
Oligos used for sequencing are o15.097(CGGTAGAGCTCCCTTCTATGC) and o15.098(CTGGCACGACAGGTTTCCC).
Overnight of T1 in LB+ery(150µG/mL).
Dialyse of both ligation products(p15.01 and p15.02) and both native plasmids (pKV6 and pSIP411) on 0.025µm cellulose filter for 20 minutes.
Transformation of DH5α by electroporation with the previously ligated p15.01 and p15.02.
Transformation results
- Received gBlocks RibA, RibD, RibE, RibT25 and RibT48 and amplification oligos from IDT. Dilution in water and PCR amplification, using the following protocol:
- 1 μL gBlock (0.1 to 1ng)
- 1 μL forward primer (10 μM)
- 1 μL reverse primer (10 μM)
- 22 μL DNAse/RNAse free water
- 25 μL LifeTech MasterMix (2X)
- Add 5 volumes of resuspension buffer to 1 volume of PCR product in an 1.5mL microcentrifuge tube, mix by pipetting up and down
- Transfer in a centrifugation column
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Add 700μL of washing solution
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Add 500μL of washing solution
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Centrifuge 1 min at 14000 rpm
- Throw the filtration product
- Put the column in a sterile 1.5mL microcentrifuge tube
- Add 45μL of DNAse/RNAse free water on the membrane
- Wait 2 minutes
- Centrifuge 2min at 10000rpm
- Discard the column, DNA is saved in water
12 cycles amplification, using the following parameters:
time (min) | temperature (°C) | function |
3:00 | 98 | melting |
0:30 | 98 | melting |
0:30 | 52 | annealing |
1:00 | 72 | extension |
10:00 | 72 | extension |
forever | 12 | storage |
|
[PCR product with gBlock] (ng/μL) | [PCR product without gBlock] (ng/μL) | |
RibA | 3.5 | 3.4 |
RibD | 6.4 | 3.3 |
RibE | 5.0 | 3.7 |
RibT25 | 3.5 | 3.8 |
RibT48 | 8.7 | 3.3 |
It could be the fallout of the limited number of cycles. (We only used 12 cycles, as advised by IDT)
NEB Tm calculator gave really different Tm for the PCR primers than Geneious and IDT.
We decided to launch two PCR, both with 35 cycles, but with two different annealing
temperature: 52 and 64°C.
14/07
Launched the two different PCR with different Tm.
PCR with high annealing temperature, 35 cycles:
time (min) | temperature (°C) | function |
3:00 | 98 | melting |
0:30 | 98 | melting |
0:30 | 64 | annealing |
1:00 | 72 | extension |
10:00 | 72 | extension |
forever | 12 | storage |
PCR with low annealing temperature, 35 cycles:
time (min) | temperature (°C) | function |
3:00 | 98 | melting |
0:30 | 98 | melting |
0:30 | 64 | annealing |
1:00 | 72 | extension |
10:00 | 72 | extension |
forever | 12 | storage |
After PCR, we ran the PCR products on a TAE - 1% agarose gel (100V, 20min) to check
if the amplification product correspond to the expected size of the gBlocks.
From left to right: 1kb Ladder, RibA, D, E, T25 and T48 amplified at 52°C and Rib A, D, E, T25 and T48 amplified at 64°C |
The bands are not really specific and seems to be smeared over the gel.
However, we can see that the extremity of each band correspond approximatively
to the expected size of our parts, except RibD amplified at 64°C for which no band has been detected. We purified our PCR product according to the previously used protocol,
and then measure the DNA concentration using a Nanodrop.
Part Name | PCR product amplified at 52°C concentration (ng/μL) | PCR product amplified at 64°C concentration (ng/μL) |
RibA | 54.3 | 132.7 |
RibD | 50.5 | 140.2 |
RibE | 67.1 | 78.2 |
RibT25 | 63.6 | 136.0 |
RibT48 | 61.2 | 143.1 |
16/07
Annealing of o15.011 (TCGACCATGCTTGTCTTCGAAGACTTGGGGGAT) and o15.012 (CTAGATCCCCCAAGTCTTCGAAGACAAGCATGG) using the following protocol:
Annealing Protocol
|
Inoculate LB + erythromycin (150ng/μL) with g15.21 containing pKV6.
Inoculate M17 + erythromycin (10ng/μL) with g15.13 containing pSIP411.
17/07
Miniprep of g15.13 and g15.21 as describe below:
Miniprep protocol using a QIAGEN kit
|
As g15.13 is a gram positive bacteria, we added 1mL of 10mg/mL Lysozyme at the same time that the cell lysis solution.
Measurement of DNA concentration
20/07
-Annealing of o15.072 (TCGACCATGCTTGTCTTCGAAGACTTGGGGGAG) and o15.073 (AATTCTCCCCCAAGTCTTCGAAGACAAGCATGG) thanks to the protocol used previously. -PCR of pSIP411 ORI and resistance cassette (erythromycin) using o15.070 and o15.071. We will call it pSIPnew to write clearer explanations. The size of this fragment is 3.1kb, so the elongation phase was extended to 2min. a negative PCR control was made at the same time (without matrix DNA). PCR purification after the PCR and concentration measurement:
Concentration (ng/μL) | |
pSIPnew | 99.0 |
negative control | 0.0 |
21/07
Digestion of amplified band of pSIPnew and pKV6 with respectively XbaI/SalI and EcoRI/SalI using the following protocol.
Digestion Protocol
|
For pSIPnew: SalI and XbaI, 30μL of DNA (99ng/μL), 66μL of water.
For pKV6: SalI and EcoRI, 10μL of DNA(270ng/μL), 86μL of water.
PCR purification of both digested pKV6 and pSIPnew
Measure the DNA concentration after PCR purification:
Concentration (ng/μL) | |
pSIPnew | 60.8 |
pKV6 | 26.4 |
Ligation of annealed oligos o15.011 and o15.012 with digested pSIP411new and o15.072 and o15.073 with digested pKV6 using the following protocol
Ligation Protocol
|
For pSIPnew: 2µL of digested pKV6(60.8ng/µL), 6µL of annealed o15.011/o15.012, 9µL of water.
pKV6 ligated with o15.072/o15.073 and pSIPnew ligated with o15.011/o15.012 will be respectively called p15.01 and p15.02.
Transformation of p15.01, p15.02, pKV6(miniprep), pSIP411(miniprep) and a negative control (no DNA) in NEB DH5α chemically competent cells
Heat Shock transformation protocol
|
22/07
Transformation results
Transformed product | pKV6 | pSIP411 | p15.01 | p15.02 | negative control |
|
|
|
|
no growth |
23/07
Preparation of DH5α Electrocompetent cells, 50 tubes of 100µL.
Electrocompetent Cells Preparation Protocol
|
24/07
Miniprep of the 3 overnight cultures of p15.01 transformants T1, T2 and T3(respective concentration: 204.8, 160.7 and 267.7 ng/µL).
Digestion of pKV6(negative control) and p15.01 with BbsI and Eco31I to control the insertion of the two BbsI sites in p15.01.
Analytical digestion protocol
|
Both T2 and T3 transformants present the same bands as pKV6, whereas T1 shows 3 bands at 2.7kb, 1.7kb and 1.4kb.
We then sequenced the T1 transformants to have a confirmation of the gel results.
Oligos used for sequencing are o15.097(CGGTAGAGCTCCCTTCTATGC) and o15.098(CTGGCACGACAGGTTTCCC).
Overnight of T1 in LB+ery(150µG/mL).
Dialyse of both ligation products(p15.01 and p15.02) and both native plasmids (pKV6 and pSIP411) on 0.025µm cellulose filter for 20 minutes.
Transformation of DH5α by electroporation with the previously ligated p15.01 and p15.02.
Electroporation Protocol
|
Transformed product | pKV6 | pSIP411 | p15.01 | p15.02 | negative control |
500 colonies, no background | roughly ten single colonies |
|
| no growth |