Team:TMU-Tokyo/Notebook/Protocol/

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<B>■Protocols</B><Br>
<B>■Protocols</B><Br>
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Plasmid DNA Purification<Br>
 
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Genome DNA Purification<Br>
 
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Restruction Enzyme Degestion<Br>
 
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DNA Fragment Ligation<Br>
 
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Transformation<Br>
 
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Electrophoresis<Br>
 
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<B><A Href="https://2012.igem.org/Team:TMU-Tokyo/Notebook/Assay">■Assay</A></B><Br>
<B><A Href="https://2012.igem.org/Team:TMU-Tokyo/Notebook/Assay">■Assay</A></B><Br>

Revision as of 19:31, 25 September 2012

 




■Experiment
1st week (8.13 - 8.19)
2nd week (8.20 - 8.26)
3rd week (8.27 - 9. 2)
4th week (9. 3 - 9. 9)
5th week (9.10 - 9.16)
6th week (9.17 - 9.23)
7th week (9.24 - 9.30)


■Protocols

■Assay
Device1 Assay
Device2 Assay
Device3 Assay




Protocol



Our experiment was done follow description.


■Plasmid DNA Purification; QIAprep Spin Miniprep Kit (QIAGEN)

All centrifuge is done at 13,000rpm, room temperature.

1. Add 1mL overnight cultures of E. coli in LB medium to a eppendorf tube. Centrifuge 1 min and create pellet.
2. Add 250µL Buffer P1 and vortex until pellet perfectly dissolved.
3. Add 250µL Buffer P2 and mix softly by inverting the tube 4-6 times. (Don't vortex.)
4. Add 350µL Buffer N3 and immediately mix softly by inverting the tube 4-6 times. (Don't vortex.)
5. Centrifuge 10 min. Add supernatant to QIAprep Spin Column by pipetting.
6. Centrifuge 1 min. Discard the flow-through.
7. Add 500µL Buffer PB and centrifuge 1 min. Discard the flow-through.
8. Add 400µL Buffer PE and centrifuge 1 min. Discard the flow-through.
9. Repeat step8.
10. Centrifuge 1 min additionally.
11. Replace the QIAprep Spin Column in a eppendorf tube. Let stand for 1 min.
12. Add 50µL Buffer EB. Let stand for 1 min.
13. Centrifuge 1 min. The flow-through is plasmid DNA solution.


■Genome DNA Purification; Generation™ Capture Column (QIAGEN)


1. Add 200µL overnight cultures of E. coli in LB medium to the Capture Column.
2. Incubate 1 min at room temperature.
3. Add 400µL DNA Purification Solution 1, incubate 1 min at room temperature.
4. Centrifuge 10 s with tabletop centrifuge.
5. Transfer the Capture Column to the Waste Collection Tube.
6. Add 400µL DNA Purification Solution 1, incubate 1 min at room temperature.
7. Centrifuge 10 s with tabletop centrifuge.
8. Add 200µl DNA Elution Solution 2. (Don't incubate.)
9. Centrifuge 10 s with tabletop centrifuge.
10. Transfer the Capture Column to DNA Collection Tube.
11. Add 100µl DNA Elution Solution 2, incuvate 10 min at 99℃ with heat block.
12. Centrifuge 20 s with tabletop centrifuge. Purified DNA will be released to solution.



■Restruction Enzyme Degestion



■DNA Fragment Ligation



■Transformation



■Electrophoresis



■PCR


・PCR; PrimeSTAR® HS DNA Polymerase
1. Add following components on ice.

・General reaction mixture for PCR: 1tube Total 50µL
(5X PrimeSTAR Buffer 10µL / dNTP Mixture 4µL / Primer(Forward) 0.75µL(20µM) / Primer(Reverse) 0.75µL(20µM) / Template DNA(E. coli Genomic DNA 100 pg - 100 ng plasmidDNA 10 pg - 1 ng) / PrimeSTAR HS DNA Polymerase (2.5 U/µL) 0.5µL / Sterilized distilled water up to 50µL)

2. Dispense PCR solution to PCR tubes.
3. Set PCR tubes on thermal cycler
4. Run PCR

・General PCR Conditions
98 ℃・・・5min
98 ℃・・・10sec.
55 ℃・・・5 or 15sec.  TM value≧55…5sec. TM value<55…15sec.
72 ℃・・・1min×1kbp
72 ℃・・・5min
4℃・・・∞
30Cycle


・Colony PCR ; Takara EX®Taq
1. Add the all following components on ice.

・General reaction mixture for Colony PCR (1tube Total 20 μl) DW
10× PCR Buffer
dNTP (2.5mM)
Primer(Forward) (20µM)
Primer(Reverse) (20µM)
Taq Polymerase 

2. Dispense PCR solution to PCR tubes.
3. Pick up a colony and put it into PCR tube.then inoculate to master plate.
4. Set PCR tubes on thermal cycler
5. Run PCR