Griffitts:Arbitrary PCR: Difference between revisions
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| 0.6 μL | | 0.6 μL | ||
| [[Griffitts:Stock solutions#10 mM dNTPs|10mM dNTPs]] | | [[Griffitts:Stock solutions#10 mM dNTPs|10mM dNTPs]] | ||
|- | |||
| 0.25 μL | |||
| ''Taq'' polymerase | |||
|- | |- | ||
| 0.15 μL | | 0.15 μL | ||
| 100μM TSP1 | | 100μM TSP1* | ||
|- | |- | ||
| 0.15 μL | | 0.15 μL | ||
| 100μM [[Griffitts:Arbitrary PCR#ARB1A|ARB1A]] or [[Griffitts:Arbitrary PCR#ARB1B|ARB1B]] | | 100μM [[Griffitts:Arbitrary PCR#ARB1A|ARB1A]] or [[Griffitts:Arbitrary PCR#ARB1B|ARB1B]] | ||
|- | |- | ||
| 1 μL | | 1 μL | ||
| DNA template (boiled cells) | | DNA template (boiled cells)** | ||
|} | |} | ||
<br> | <br> | ||
<nowiki>*</nowiki>For mini-Tn''5'':110 (<font color=green>Nm<sup>R</sup></font>) use oJG133.<br> | |||
For mini-Tn''5'':267 or mini-Tn''5'':285 (both <font color=red>Tc<sup>R</sup></font>) use oJG697.<br> | |||
For mini-Tn''5'':520 (<font color=purple>Gm<sup>R</sup></font>) use oJG1254.<br><br> | |||
<nowiki>**</nowiki>For amplifying rhizobium sequences, boil a dense suspension of cells in 50 μL [[Griffitts:Common buffers#colony lysis solution (for PCR) (100 mL)|PCR lysis buffer]] for ~2 min and vortex; for amplifying ''E. coli'', adding cells directly to the reaction is sufficient. | |||
===Round One cycling=== | ===Round One cycling=== | ||
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{| border="1" cellpadding="5" cellspacing="0" | {| border="1" cellpadding="5" cellspacing="0" | ||
|- | |- | ||
! width="120" style="background:#efefef;" | Per reaction | |||
! width="120" style="background:#efefef;" | Ingredient | ! width="120" style="background:#efefef;" | Ingredient | ||
|- | |- | ||
| 21.35 μL | |||
| dH<sub>2</sub>O | | dH<sub>2</sub>O | ||
|- | |- | ||
| 2.5 μL | |||
| [[Griffitts:Stock solutions#10X Taq buffer|''Taq'' buffer]] | | [[Griffitts:Stock solutions#10X Taq buffer|''Taq'' buffer]] | ||
|- | |- | ||
| 0.6 μL | |||
| [[Griffitts:Stock solutions#10 mM dNTPs|10mM dNTPs]] | | [[Griffitts:Stock solutions#10 mM dNTPs|10mM dNTPs]] | ||
|- | |- | ||
| 0.25 μL | |||
| ''Taq'' polymerase | | ''Taq'' polymerase | ||
|- | |- | ||
| 0.15 μL | | 0.15 μL | ||
| 100μM TSP2* | |||
|- | |- | ||
| 0.15 μL | |||
| 100μM [[Griffitts:Arbitrary PCR#ARB2|ARB2]] | | 100μM [[Griffitts:Arbitrary PCR#ARB2|ARB2]] | ||
|- | |- | ||
| 0.8 μL | |||
| [[Griffitts:Arbitrary PCR#Round One|first-round rxn]] | | [[Griffitts:Arbitrary PCR#Round One|first-round rxn]] | ||
|} | |} | ||
<br> | <br> | ||
<nowiki>*</nowiki>For mini-Tn''5'':110 (<font color=green>Nm<sup>R</sup></font>) use oJG134.<br> | |||
For mini-Tn''5'':267 or mini-Tn''5'':285 (both <font color=red>Tc<sup>R</sup></font>) use oJG698.<br> | |||
For mini-Tn''5'':520 (<font color=purple>Gm<sup>R</sup></font>) use oJG1255. | |||
===Round Two cycling=== | ===Round Two cycling=== | ||
| Line 166: | Line 172: | ||
==Conclusion== | ==Conclusion== | ||
Second-round reactions are then [[Griffitts:PCR clean-up|cleaned up by Qiagen]]. [[Griffitts:Gel electrophoresis|Run a small amount on a gel]] to analyze products, and use remaining product for [[Griffitts:DNA sequencing|sequencing]], using the TSP2 primer. Even if the reaction yields multiple bands, you should get unambiguous sequence back. If you are using native | Second-round reactions are then [[Griffitts:PCR clean-up|cleaned up by Qiagen]]. [[Griffitts:Gel electrophoresis|Run a small amount on a gel]] to analyze products, and use remaining product for [[Griffitts:DNA sequencing|sequencing]], using the TSP2 primer. Even if the reaction yields multiple bands, you should get unambiguous sequence back. If you are using native Tn''5'', in which case TSP1 and TSP2 will hybridize on both sides, then you would need to clone before sequencing. | ||
==Primers== | ==Primers== | ||
Latest revision as of 13:39, 8 March 2011
Introduction
You need nested outward-pointing transposon-specific primers (TSP) within 150 bp of the transposon end. These should both be standard primers with Tm of 60–65°C. The primer more distal from the transposon end (TSP1) is to be used in the first-round PCR, and the primer more proximal to the transposon end (TSP2) is to be used in the second round PCR. You will also need a degenerate arbitrary primer designed to hybridize promiscuously at low annealing temperatures. I recommend the following two primers: ARB1A, ARB1B, or ARB1C. These would not be used simultaneously, but rather in parallel experiments to maximize the odds of getting good product. These primers are used in the first-round PCR. Finally, you need the ARB2 primer, designed to hybridize to the products of ARB1A, ARB1B, or ARB1C in the second round PCR.
Round One
Round One recipe
| Per reaction | Ingredient |
|---|---|
| 21.35 μL | dH2O |
| 2.5 μL | Taq buffer |
| 0.6 μL | 10mM dNTPs |
| 0.25 μL | Taq polymerase |
| 0.15 μL | 100μM TSP1* |
| 0.15 μL | 100μM ARB1A or ARB1B |
| 1 μL | DNA template (boiled cells)** |
*For mini-Tn5:110 (NmR) use oJG133.
For mini-Tn5:267 or mini-Tn5:285 (both TcR) use oJG697.
For mini-Tn5:520 (GmR) use oJG1254.
**For amplifying rhizobium sequences, boil a dense suspension of cells in 50 μL PCR lysis buffer for ~2 min and vortex; for amplifying E. coli, adding cells directly to the reaction is sufficient.
Round One cycling
| Step | Temp | Duration |
|---|---|---|
| 1 | 94°C | 3:00 |
| 2 | 94°C | 0:20 |
| 3 | 33°C | 0:20 |
| 4 | 70°C | 1:00 |
| 5 | GOTO 2 | 6 times |
| 6 | 94°C | 0:20 |
| 7 | 43°C | 0:20 |
| 8 | 70°C | 1:00 |
| 9 | GOTO 6 | 28 times |
| 10 | 70°C | 3:00 |
| 11 | 4°C | forever |
| 12 | END |
Note: For more info, see the standard PCR procedure
Round Two
Round Two recipe
| Per reaction | Ingredient |
|---|---|
| 21.35 μL | dH2O |
| 2.5 μL | Taq buffer |
| 0.6 μL | 10mM dNTPs |
| 0.25 μL | Taq polymerase |
| 0.15 μL | 100μM TSP2* |
| 0.15 μL | 100μM ARB2 |
| 0.8 μL | first-round rxn |
*For mini-Tn5:110 (NmR) use oJG134.
For mini-Tn5:267 or mini-Tn5:285 (both TcR) use oJG698.
For mini-Tn5:520 (GmR) use oJG1255.
Round Two cycling
| Step | Temp | Duration |
|---|---|---|
| 1 | 94°C | 3:00 |
| 2 | 94°C | 0:20 |
| 3 | 52°C | 0:20 |
| 4 | 70°C | 1:30 |
| 5 | GOTO 2 | 30 times |
| 6 | 70°C | 3:00 |
| 7 | 4°C | forever |
| 8 | END |
Note: For more info, see the standard PCR procedure
Conclusion
Second-round reactions are then cleaned up by Qiagen. Run a small amount on a gel to analyze products, and use remaining product for sequencing, using the TSP2 primer. Even if the reaction yields multiple bands, you should get unambiguous sequence back. If you are using native Tn5, in which case TSP1 and TSP2 will hybridize on both sides, then you would need to clone before sequencing.
Primers
ARB1A
GCCACGCGTCGACTAGTACNNNNNNNNNNACGCC
ARB1B
GCCACGCGTCGACTAGTACNNNNNNNNNNTGCGG
ARB1C
GCCACGCGTCGACTAGTACNNNNNNNNNNTCCGG
ARB2
GCCACGCGTCGACTAGTAC
