Zhaowenxue (Talk | contribs) |
Zhaowenxue (Talk | contribs) |
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<div id="collapseFour" class="panel-collapse collapse"> | <div id="collapseFour" class="panel-collapse collapse"> | ||
<div class="panel-body"> | <div class="panel-body"> | ||
− | <p>Amplify the chloramphnicol and promoter segment and add vector homology arms via series PCR. Purify the PCR products using the TianGen PCR Purification Kit and elute into 30ul of autoclaved | + | <p>Amplify the chloramphnicol and promoter segment and add vector homology arms via series PCR. Purify the PCR products using the TianGen PCR Purification Kit and elute into 30ul of autoclaved ddH<sub>2</sub>O. Quantify the elution using a NanoDrop UV spectrophotometer, store them at 4℃。</p> |
<p>In order to obtain an promoter library suitable for cloning, promoter sequence flanked by homology arms was added a chloramphenicol selection marker. This sequence was synthesized by Sangon. </p> | <p>In order to obtain an promoter library suitable for cloning, promoter sequence flanked by homology arms was added a chloramphenicol selection marker. This sequence was synthesized by Sangon. </p> | ||
<p>TABLE 2 Oligonucleotides used for PCR of the DNA segment containing the promoter and chloramphenicol selective marker </p> | <p>TABLE 2 Oligonucleotides used for PCR of the DNA segment containing the promoter and chloramphenicol selective marker </p> | ||
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<tbody> | <tbody> | ||
<tr> | <tr> | ||
− | <td>Autoclaved | + | <td>Autoclaved ddH<sub>2<sub>O</td> |
<td>22</td> | <td>22</td> | ||
<td></td> | <td></td> | ||
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<th> Denaturation </th> | <th> Denaturation </th> | ||
<th> Annealing </th> | <th> Annealing </th> | ||
− | <th> Termination </th> | + | <th> Termination </th> |
+ | <th></th> | ||
</tr> | </tr> | ||
</thead> | </thead> | ||
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</tr> | </tr> | ||
<tr> | <tr> | ||
− | <td>2 | + | <td>2-31</td> |
<td>98℃, 15s </td> | <td>98℃, 15s </td> | ||
− | <td>59℃, 15s</td> | + | <td>59℃, 15s</td> |
<td>72℃, 15s </td> | <td>72℃, 15s </td> | ||
− | <td></td> | + | <td></td> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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<td> </td> | <td> </td> | ||
<td>72℃, 4min</td> | <td>72℃, 4min</td> | ||
− | + | <td></td> | |
</tr> | </tr> | ||
<tr> | <tr> | ||
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</table> | </table> | ||
</div> | </div> | ||
− | <p>·Add vector homology arms to the PCR products purified</p> | + | <p>·Add vector homology arms to the PCR products purified.</p> |
− | <p> | + | <p>·Use the purified PCR products from last step as a template. Use the PAGE-purified oligonucleotides ,Syn-promoter-3 and promoter-4 (Table3), to amplify the cm-promoter. </p> |
<p>TABLE 3 Oligonucleotides used for PCR of the DNA segment containing the promoter and chloramphenicol selective marker</p> | <p>TABLE 3 Oligonucleotides used for PCR of the DNA segment containing the promoter and chloramphenicol selective marker</p> | ||
<div class="table-wrapper"> | <div class="table-wrapper"> | ||
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</tr> | </tr> | ||
<tr> | <tr> | ||
− | <td>2 | + | <td>2-31</td> |
<td>98℃, 15s </td> | <td>98℃, 15s </td> | ||
<td>52~59℃, 15s, 15s </td> | <td>52~59℃, 15s, 15s </td> | ||
<td>72℃, 15s </td> | <td>72℃, 15s </td> | ||
− | <td></td> | + | <td></td> |
</tr> | </tr> | ||
<tr> | <tr> | ||
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<td> </td> | <td> </td> | ||
<td>72℃, 4min</td> | <td>72℃, 4min</td> | ||
− | + | <td></td> | |
</tr> | </tr> | ||
<tr> | <tr> | ||
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<td></td> | <td></td> | ||
<td></td> | <td></td> | ||
− | + | <td></td> | |
− | + | <td>10℃, hold </td> | |
</tr> | </tr> | ||
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</table> | </table> | ||
</div> | </div> | ||
− | <p> | + | <p>·Purify the PCR products using the TianGen PCR Purification Kit and elute into 30ul of autoclaved ddH<sub>2</sub>O. Quantify the elution using a NanoDrop UV spectrophotometer.</p> |
− | <img alt="" src="https://static.igem.org/mediawiki/2018/ | + | <img alt="" src="https://static.igem.org/mediawiki/2018/1/17/T--SKLMT-China--promoter11-15.png" style="margin: 0 auto;" width="300" height="300"/> |
</div> | </div> | ||
</div> | </div> | ||
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<div class="panel-body"> | <div class="panel-body"> | ||
<h2 class="title"> Transform the plasmid pBBR1-kan-amp-ccdb-BAD-GFP-firefly into GB05 red gyrA462 via electroporation. Do Mini-Prep and screen correct plasmid by restriction analysis</h2> | <h2 class="title"> Transform the plasmid pBBR1-kan-amp-ccdb-BAD-GFP-firefly into GB05 red gyrA462 via electroporation. Do Mini-Prep and screen correct plasmid by restriction analysis</h2> | ||
− | <img alt="" src=" | + | <img alt="" src="hhttps://static.igem.org/mediawiki/2018/8/80/T--SKLMT-China--pBBR1-KAN-Amp-ccdB-BAD-GFP-firefly.png" style="margin: 0 auto;" width="300" height="300"/> |
</div> | </div> | ||
</div> | </div> | ||
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<h2 class="title">construct the plasmid pBBR1-kan-cm-promoter-firefly via liner circular recombination in GB05 red gyrA462. </h2> | <h2 class="title">construct the plasmid pBBR1-kan-cm-promoter-firefly via liner circular recombination in GB05 red gyrA462. </h2> | ||
<h2 class="title">Do Mini-Prep and screen correct recombinants by restriction analysis. </h2> | <h2 class="title">Do Mini-Prep and screen correct recombinants by restriction analysis. </h2> | ||
− | <img alt="" src="https://static.igem.org/mediawiki/2018/ | + | <img alt="" src="https://static.igem.org/mediawiki/2018/9/9d/T--SKLMT-China--pBBR1-KAN-CM-PROMOTER-FIREFLY23456810.png" style="margin: 0 auto;" width="300" height="300"/> |
</div> | </div> | ||
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<div id="collapseSeven" class="panel-collapse collapse"> | <div id="collapseSeven" class="panel-collapse collapse"> | ||
<div class="panel-body"> | <div class="panel-body"> | ||
− | <h2 class="title">Transform the plasmid pBBR1-kan-amp-ccdb-BAD-GFP-firefly into | + | <h2 class="title">Transform the plasmid pBBR1-kan-amp-ccdb-BAD-GFP-firefly into<latin> P.fluorescence pf-5</latin> via electroporation. </h2> |
− | <p>·Use a syringe needle (25-Gauge 5/8, 0.5 mm × 16 mm) to puncture the cap of a 1.5-ml microcentrifuge tube for aeration and add 1.0 ml LB. Inoculate the medium in the 1.5-ml tube with the several colonies of | + | <p>·Use a syringe needle (25-Gauge 5/8, 0.5 mm × 16 mm) to puncture the cap of a 1.5-ml microcentrifuge tube for aeration and add 1.0 ml LB. Inoculate the medium in the 1.5-ml tube with the several colonies of<latin> P. fluorescence pf-5</latin> cells and incubate at 30 °C overnight with shaking at 950 r.p.m. in an Eppendorf thermomixer.</p> |
<p>·Puncture the cap of a 1.5-ml microcentrifuge tube, add 1.4 ml of LB inoculating with 40 ul of the overnight culture.</p> | <p>·Puncture the cap of a 1.5-ml microcentrifuge tube, add 1.4 ml of LB inoculating with 40 ul of the overnight culture.</p> | ||
<p>·Incubate the mixture at 30 °C for 2.5h with shaking at 950 r.p.m. in an Eppendorf thermomixer. At this stage, the OD600 should be between 0.35 and 0.40.</p> | <p>·Incubate the mixture at 30 °C for 2.5h with shaking at 950 r.p.m. in an Eppendorf thermomixer. At this stage, the OD600 should be between 0.35 and 0.40.</p> |
Revision as of 16:27, 15 October 2018
Team registration and brainstorm
During this time, we registrated the team SKLMT-China in iGEM. In order to verify the feasibility of our project, we discussed with professors and experts and did some human practice work.
Find promoters with various strength in the light of transcriptom references. Take the sequence from the upstream of a specific gene.
Number | Promoter | Sequence 5'-3' | Length |
---|---|---|---|
01 | PampC | ACGCCGGGGCCGCAAAGCCGCTGGGACAAACGCGGCGTACATAACCAGAACCCAGGGAAACCAACCAATC | 70 |
02 | ParaA | CTACGACGGCTTCCTGACCCTATAGCTCTAGCAACACCCCCGATTGTTTTGTCTCTGGAGGATCACAGTA | 70 |
03 | PfabD | TGTCAGTTTCTTGCGTCCACCACGGTGTGACGTCAATTCTCCGACGACAAGATCATTAGGGGCTTGTTAC | 70 |
04 | PccmD | AGGTGCTCAAGCGTGAAGCCCGGACCAGTTGGGTCAAGGCCGAAGTCCAACGCAGCCTGGAGGCCGCCCG | 70 |
05 | PfliA | CGGCGAACCCACGCGGGCATCTGGAGTTTTTTGTCGAGCGGCTAGTGCATCAAACAGCGGGACCGGTGCT | 70 |
06 | PltR | GGCTGTCATGATCTATTTGTAATTTGCCTTTACAAAAATAAGACACTAAAAATTCTAAAAGGATTTAGGA | 70 |
07 | PproC | GCGCTGTTTGGTGCCCGCGACTACAGTCAGTCCTGATGCGACTGACCCCGACCTCTTGTAAGGACCTGTC | 70 |
08 | PrecA | GCTGTGGAATAATACTGGCTACTTATACAGGTGTTGGCCGTCAGGCCTTATTGATTACGTGAGGACTTTA | 70 |
09 | PrpoD | TGAGGTCATAGCTCGGGTATAATCCTCGGCTTGTTTTTTGCCCGCCAAGACCTTCAGTGGATAGGGTGTT | 70 |
10 | PrpoS | AGGCTCCAGCGTTGCCAGGGATAAAGGCGCCGCTTGAGCCTGAGGTCGAACTCACCAAAGGACTATAACA | 70 |
11 | PdnaA | TAAGTGGGCGGCTGATCGCTACAATGGCCGCTTGTTTTTGCCTCACCGGCTTTCAACTTAGGGGATATCC | 70 |
12 | Ppol | ACCTTGTCCCTTTGTCGTCAACGGTCCCGCTATTCTAGCGCCGGACCCGCCGAAAAGGTTGATCCCGCTC | 70 |
13 | P16s | CGAGAAATCAAAGATGTAACCAACGATTGCTGAGCCAAGTTTAGGGTTTTCTCAAAACCCAAAGATGTTT | 70 |
14 | Psig | TGCCAAATCGATAAAGCCTCAATGACAATGCGACTAATTATCATTAGTGACACTCAGGCAGTCCGCGTCC | 70 |
15 | Patf | GTCGCCGGGCGTAAAGTGATCGCCGTTTGCGCGGCCCGATTGTCCGGCCGCCCGAGTAAGGAGTCTTATC | 70 |
16 | Pfme | ATGACCGTCTTGCAAAGGCTTGCTACGGCAAGCCTTTTTCTTTTCCGCATGTTTAACATCGAGAATTCCC | 70 |
17 | Pmem | GGTTAATCCGGGGTTTGTCGTTTCTGCCCGCCCCGCTATCATTCGCCGCATCTTTCGAGGGGTATGACCG | 70 |
18 | Pfat | CGTTTACGGCTAGCGCCCGGAGCCGGGGCTCGGGGCAGGATGCACACATCACTGACCAGAGGATGGAATC | 70 |
19 | Pami | GGTTTGGGGTTGCGCACTAACTTGCGCAGTGGCGATATAAGCGCCCTATAACAATTCCAGGGGTCGTTGT | 70 |
20 | Prib | TTCGCGCCCTAATTCGTGCGGTATTCAACAATAGTGTTGGGTGGCGGCACGCTAGCCTGAGGAATACACC | 70 |
21 | Pabc | CCCGCAAATAAAATTGCCGGCCCAGGCCGGCAGGCGCCCGGGGTCGGGCGACTTACAAGGAGCTTGTTGG | 70 |
22 | Pedo | TGAAGGCGCGCTGAGCGTGGCTGACCAGTTGATCGCCAAAGAGCGCGCAGCCAAGTAAGCGCCCGCCGCC | 70 |
23 | Ptox | AAAGACGCGGGCCTTGAGTGCTCTAACACCCAAGACCCGCTAACCACAAGCAGCTAAACAGGAGCTGAAT | 70 |
24 | Pdiv | GAGCTGACCCGGCGCACCCTCAAGCAAGGTCTGGAACTGCTGGGCCTCAAAGTCCTGGAGCAAATGTAAG | 70 |
25 | Plip | AGGTTCTGATGTTTTCCGGGCAAGGCCTGAAGTAAAAAAACCGGGGCTTCGGGCCCACGGGAGAAAAATA | 70 |
design the PAGE-purified oligonucleotides used to amplify the chloramphenicol
Amplify the chloramphnicol and promoter segment and add vector homology arms via series PCR. Purify the PCR products using the TianGen PCR Purification Kit and elute into 30ul of autoclaved ddH2O. Quantify the elution using a NanoDrop UV spectrophotometer, store them at 4℃。
In order to obtain an promoter library suitable for cloning, promoter sequence flanked by homology arms was added a chloramphenicol selection marker. This sequence was synthesized by Sangon.
TABLE 2 Oligonucleotides used for PCR of the DNA segment containing the promoter and chloramphenicol selective marker
Primer | Sequence 5'-3' | length |
---|---|---|
Syn-primer 1 | AATGAATTACAACAGTTTTTATGCAGATATCAATTAATTTGGTTATGTGTGGGAGGGCTA | 60 |
ampC-2 | TGGGTTCTGGTTATGTACGCCGCGTTTGTCCCAGCGGCTTTGCGGCCCCGGCGTATTAATGACGTTGATCGGCACGTAAG | 80 |
araA-2 | AGACAAAACAATCGGGGGTGTTGCTAGAGCTATAGGGTCAGGAAGCCGTCGTAGATTAATGACGTTGATCGGCACGTAAG | 80 |
fabD-2 | GATCTTGTCGTCGGAGAATTGACGTCACACCGTGGTGGACGCAAGAAACTGACAATTAATGACGTTGATCGGCACGTAAG | 80 |
ccmD-2 | TGCGTTGGACTTCGGCCTTGACCCAACTGGTCCGGGCTTCACGCTTGAGCACCTATTAATGACGTTGATCGGCACGTAAG | 80 |
fliA-2 | TTTGATGCACTAGCCGCTCGACAAAAAACTCCAGATGCCCGCGTGGGTTCGCCGATTAATGACGTTGATCGGCACGTAAG | 80 |
pltR-2 | AATTTTTAGTGTCTTATTTTTGTAAAGGCAAATTACAAATAGATCATGACAGCCATTAATGACGTTGATCGGCACGTAAG | 80 |
proC-2 | AGGTCGGGGTCAGTCGCATCAGGACTGACTGTAGTCGCGGGCACCAAACAGCGCATTAATGACGTTGATCGGCACGTAAG | 80 |
recA-2 | TCAATAAGGCCTGACGGCCAACACCTGTATAAGTAGCCAGTATTATTCCACAGCATTAATGACGTTGATCGGCACGTAAG | 80 |
rpoD-2 | AAGGTCTTGGCGGGCAAAAAACAAGCCGAGGATTATACCCGAGCTATGACCTCAATTAATGACGTTGATCGGCACGTAAG | 80 |
rpoS-2 | TGAGTTCGACCTCAGGCTCAAGCGGCGCCTTTATCCCTGGCAACGCTGGAGCCTATTAATGACGTTGATCGGCACGTAAG | 8f0 |
dnaA-2 | GAAAGCCGGTGAGGCAAAAACAAGCGGCCATTGTAGCGATCAGCCGCCCACTTAATTAATGACGTTGATCGGCACGTAAG | 80 |
pol-2 | TTCGGCGGGTCCGGCGCTAGAATAGCGGGACCGTTGACGACAAAGGGACAAGGtATTAATGACGTTGATCGGCACGTAAG | 80 |
16s-2 | TGAGAAAACCCTAAACTTGGCTCAGCAATCGTTGGTTACATCTTTGATTTCTCGATTAATGACGTTGATCGGCACGTAAG | 80 |
sig-2 | AGTGTCACTAATGATAATTAGTCGCATTGTCATTGAGGCTTTATCGATTTGGCAATTAATGACGTTGATCGGCACGTAAG | 80 |
atf-2 | CGGGCGGCCGGACAATCGGGCCGCGCAAACGGCGATCACTTTACGCCCGGCGACATTAATGACGTTGATCGGCACGTAAG | 80 |
fme-2 | AAACATGCGGAAAAGAAAAAGGCTTGCCGTAGCAAGCCTTTGCAAGACGGTCATATTAATGACGTTGATCGGCACGTAAG | 80 |
mem-2 | AAGATGCGGCGAATGATAGCGGGGCGGGCAGAAACGACAAACCCCGGATTAACCATTAATGACGTTGATCGGCACGTAAG | 80 |
fat-2 | CAGTGATGTGTGCATCCTGCCCCGAGCCCCGGCTCCGGGCGCTAGCCGTAAACGATTAATGACGTTGATCGGCACGTAAG | 80 |
ami-2 | TTGTTATAGGGCGCTTATATCGCCACTGCGCAAGTTAATGCGCAACCCCAAACCATTAATGACGTTGATCGGCACGTAAG | 80 |
rib-2 | TAGCGTGCCGCCACCCAACACTATTGTTGAATACCGCACGAATTAGGGCGCGAAATTAATGACGTTGATCGGCACGTAAG | 80 |
abc-2 | AAGTCGCCCGACCCCGGGCGCCTGCCGGCCTGGGCCGGCAATTTTATTTGCGGGATTAATGACGTTGATCGGCACGTAAG | 80 |
edo-2 | TTGGCTGCGCGCTCTTTGGCGATCAACTGGTCAGCCACGCTCAGCGCGCCTTCAATTAATGACGTTGATCGGCACGTAAG | 80 |
tox-2 | GCTGCTTGTGGTTAGCGGGTCTTGGGTGTTAGAGCACTCAAGGCCCGCGTCTTTATTAATGACGTTGATCGGCACGTAAG | 80 |
div-2 | GACTTTGAGGCCCAGCAGTTCCAGACCTTGCTTGAGGGTGCGCCGGGTCAGCTCATTAATGACGTTGATCGGCACGTAAG | 80 |
lip-2 | GCCCGAAGCCCCGGTTTTTTTACTTCAGGCCTTGCCCGGAAAACATCAGAACCTATTAATGACGTTGATCGGCACGTAAG | 80 |
Set up the PCR reaction using pR6K-cm-ccdB as a template. Typically, set up the PCR reaction (50ul in total) to obtain sufficient amounts of DNA.
Component | Amount(ul) | Final |
---|---|---|
Autoclaved ddH2O | 22 | |
2×primeSTAR max premix | 25 | 1× |
Template, 50ng ul-1 | 1 | 50 ng |
Syn-promoter-1 Oligo(10uM) | 1 | 30 pmol |
promoter-2 Oligo(10uM) | 1 | 30 pmol |
Total | 50 |
Carry out the PCR in a thermal cycle following the instructions below:
Cycle number | Denaturation | Annealing | Termination | |
---|---|---|---|---|
1 | 94℃,4min | |||
2-31 | 98℃, 15s | 59℃, 15s | 72℃, 15s | |
32 | 72℃, 4min | |||
33 | 10℃, hold |
·Add vector homology arms to the PCR products purified.
·Use the purified PCR products from last step as a template. Use the PAGE-purified oligonucleotides ,Syn-promoter-3 and promoter-4 (Table3), to amplify the cm-promoter.
TABLE 3 Oligonucleotides used for PCR of the DNA segment containing the promoter and chloramphenicol selective marker
Primer | Sequence 5'-3' | length |
---|---|---|
Syn-primer 3 | AATGAATTACAACAGTTTTTAT | 22 |
ampC-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATGATTGGTTGGTTTCCCTGGGTTCTGGTTATGTACGC | 76 |
araA-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATTACTGTGATCCTCCAGAGACAAAACAATCGGGGGTG | 76 |
fabD-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATGTAACAAGCCCCTAATGATCTTGTCGTCGGAGAATT | 76 |
ccmD-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATCGGGCGGCCTCCAGGCTGCGTTGGACTTCGGCCTTGA | 76 |
fliA-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATAGCACCGGTCCCGCTGTTTGATGCACTAGCCGCTCG | 76 |
pltR-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATTCCTAAATCCTTTTAGAATTTTTAGTGTCTTATTTT | 76 |
proC-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATGACAGGTCCTTACAAGAGGTCGGGGTCAGTCGCATC | 76 |
recA-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATTAAAGTCCTCACGTAATCAATAAGGCCTGACGGCCA | 76 |
rpoD-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATAACACCCTATCCACTGAAGGTCTTGGCGGGCAAAAA | 76 |
rpoS-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATTGTTATAGTCCTTTGGTGAGTTCGACCTCAGGCTCA | 76 |
dnaA-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATggatatcccctaagttgaaagccggtgaggcaaaaa | 76 |
pol-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATgagcgggatcaaccttttcggcgggtccggcgctag | 76 |
16s-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATaaacatctttgggttttgagaaaaccctaaacttgg | 76 |
sig-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATggacgcggactgcctgagtgtcactaatgataatta | 76 |
atf-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATgataagactccttactcgggcggccggacaatcggg | 80 |
fme-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATgggaattctcgatgttaaacatgcggaaaagaaaaa | 76 |
mem-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATcggtcatacccctcgaaagatgcggcgaatgatagc | 76 |
fat-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATgattccatcctctggtcagtgatgtgtgcatcctgc | 76 |
ami-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATacaacgacccctggaattgttatagggcgcttatat | 76 |
rib-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATggtgtattcctcaggctagcgtgccgccacccaaca | 76 |
abc-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATccaacaagctccttgtaagtcgcccgaccccgggcg | 76 |
edo-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATggcggcgggcgcttacttggctgcgcgctctttggc | 76 |
tox-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATattcagctcctgtttagctgcttgtggttagcgggt | 76 |
div-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATcttacatttgctccaggactttgaggcccagcagtt | 76 |
lip-4 | ATGGCGCCGGGCCTTTCTTTATGTTTTTGGCGTCTTCCATtatttttctcccgtgggcccgaagccccggtttttt | 76 |
·Use the purified PCR products from step2 as a template. set up the PCR reaction (50ul in total) to obtain sufficient amounts of DNA
Component | Amount(ul) | Final |
---|---|---|
Autoclaved ddH2O | 22 | |
2×primeSTAR max premix | 25 | 1× |
Template, 50ng ul-1 | 1 | 50 ng |
Syn-promoter-3 Oligo(10uM) | 1 | 30 pmol |
promoter-4 Oligo(10uM) | 1 | 30 pmol |
Total | 50 |
Carry out the PCR in a thermal cycle following the instructions below:
Cycle number | Denaturation | Annealing | Termination | |
---|---|---|---|---|
1 | 94℃,4min | |||
2-31 | 98℃, 15s | 52~59℃, 15s, 15s | 72℃, 15s | |
32 | 72℃, 4min | |||
33 | 10℃, hold |
·Purify the PCR products using the TianGen PCR Purification Kit and elute into 30ul of autoclaved ddH2O. Quantify the elution using a NanoDrop UV spectrophotometer.
Transform the plasmid pBBR1-kan-amp-ccdb-BAD-GFP-firefly into GB05 red gyrA462 via electroporation. Do Mini-Prep and screen correct plasmid by restriction analysis
construct the plasmid pBBR1-kan-cm-promoter-firefly via liner circular recombination in GB05 red gyrA462.
Do Mini-Prep and screen correct recombinants by restriction analysis.
Transform the plasmid pBBR1-kan-amp-ccdb-BAD-GFP-firefly into P.fluorescence pf-5 via electroporation.
·Use a syringe needle (25-Gauge 5/8, 0.5 mm × 16 mm) to puncture the cap of a 1.5-ml microcentrifuge tube for aeration and add 1.0 ml LB. Inoculate the medium in the 1.5-ml tube with the several colonies of
·Puncture the cap of a 1.5-ml microcentrifuge tube, add 1.4 ml of LB inoculating with 40 ul of the overnight culture.
·Incubate the mixture at 30 °C for 2.5h with shaking at 950 r.p.m. in an Eppendorf thermomixer. At this stage, the OD600 should be between 0.35 and 0.40.
· Put the cells on ice (and keep them on the ice whenever possible).
·Spin the cells down at 9,000 rpm for 30 sec in the cooling centrifuge at 2°C.
·Discard the supernatant by decanting. Discard as much supernatant as possible.
· Resuspend the pellet in 1 ml of ice-cold 10% sucrose buffer (containing 2mM HEPES) by pipetting.
· Spin the cells at 10,000 rpm for 30 sec in the cooling centrifuge at 2°C.
·Discard the supernatant by decanting. Discard as much supernatant as possible.
· Resuspend the pellet in 1 ml of ice-cold sucrose buffer (containing 2mM HEPES) by pipetting.
· Spin the cells down at 11,000 rpm for 30 sec in the cooling centrifuge at 2°C.
· Discard the supernatant by decanting and leave about 30 µl.
· Add DNA to the cells and pipette the mixture into the chilled 1 mm electroporation cuvette.
· Set the electroporator to 1250 V, 10 µF, 600 Ohms. (This setting belongs to an Eppendorf® Electroporator 2510 using an electroporation cuvette with a gap of 1 mm. Other devices can be used, but the voltage has to be fixed at 1350V and the length of the pulse should be 5 ms.)
·Carefully knock the cuvette on the table to remove air bubbles and dry the metallic sides of the cuvette with a tissue. Do not touch the metallic sides with your hands.
·Place the cuvette into the holder of the electroporator, insert, and push the “pulse” button twice.
·Add 1 ml LB medium without antibiotics to the cuvette. Resuspend the cells carefully by pipetting up and down and pipette back into the reaction tube (avoid air bubbles in the suspension).
·Recover the culture at 37 °C in an Eppendorf thermomixer with shaking at 950 r.p.m. for 1 h 40min.
· Spin down the cells by centrifugation at 8,000g for 1 min at RT.
· Discard the supernatant by decanting, leaving about 100 ul of LB medium. Resuspend the cells by pipetting up and down.
· Streak the entire mixture with a sterile 10ul loop on one LB agar plate containing 15 ug ml−1 chloramphenicol and 10ug ml−1kanamycin.
Chracterize the strength of different promoters by luciferase firefly assay
preparation of the overnight p.fluorescence culture transformed successfully
Inoculate the medium in the 1.5-ml tube with the several colonies of p.fluorescence cells that has been transformed successfully and incubate at 30 °C overnight with shaking at 950 r.p.m. in an Eppendorf thermomixer.
·Puncture the cap of a 1.5-ml microcentrifuge tube, add 1.8 ml of LB containing 5ug ml−1 chloramphenicol and inoculate with 150 ul of the overnight culture.
·Incubate the mixture at 30 °C for 2h with shaking at 950 r.p.m. in an Eppendorf thermomixer.
·Adjust the mixture to OD600 0.2
Preparation of bacterial cell lysate
·Add 10ul of 1M K2HPO4(Ph7.8) and 20mM EDTA to 90ul of transformed bacteria in a new 1.5ml microcentrifuge tube.
·Quick-freeze on dry ice, and then equilibrate to room temperature by placing the tube in room temperature water.
·Add 300ul freshly prepared lysis mix (1 volume of freshly prepared lysozyme and 2volumes of 2×CCLR with 5mg/ml BSA). Mix and incubate for 10 minutes at room temperature.
· Mix 20ul of cell lysate with 100ul of luciferase assay reafent and measure the light produced.
Measrue the light produced using GloMaxTM 96 Microplate Luminometer
Colleborate with seven Chinese iGEM teams to characterize the promoter strength under differdent conditions.
modeling
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