Team:Washington/Notebook/SOEingPCR

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__NOTOC__
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{{Template:Team:Washington/Templates/Header}}
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====SOEing PCR====
====SOEing PCR====
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**VF2 / VR = standard forward and revers primer from original construct
**VF2 / VR = standard forward and revers primer from original construct
##For mutations/insertions/deletions of 1-15 base pairs
##For mutations/insertions/deletions of 1-15 base pairs
-
**Forward:  5'-----------------------XXXX-----------------3'
+
**Forward:  '''5'-----------------------XXXX-----------------3''''
-
**Template: 5'--------------------------------------------3'
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**Template: ''' 5'----------------------------------------------3''''
-
**Reverse:   3'-----------------------XXXX-----------------5'
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**Reverse: ''' 3'-----------------------XXXX-----------------5''''
-
***X = mismatch base pair with template
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***'''X''' = mismatch base pair with template
-
***- = Matching base pair with template. Make sure that 15-25 base pairs match. The Tm of the matching regions should be >60C, and the GC content 40%-60%
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***'''-''' = Matching base pair with template. Make sure that 15-25 base pairs match. The Tm of the matching regions should be >60C, and the GC content 40%-60%
##For mutations/insertions/deletions of 15+ base pairs
##For mutations/insertions/deletions of 15+ base pairs
-
**Forward: ................................5'-XXXX-----------------3'
+
**Forward: ..............................................'''5'-XXXX-----------------3''''
-
**Template:..5'------------------------------------------------3'
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**Template:..'''5'------------------------------------------------3''''
-
**Reverse:...3'-----------------------XXXX-5'
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**Reverse:...'''3'-----------------------XXXX-5''''
-
***X = mismatch base pair with template
+
***'''X''' = mismatch base pair with template
-
***- = Matching base pair with template. Make sure that 15-25 base pairs match. The Tm of the matching regions should be >60C, and the GC content 40%-60%
+
***'''-''' = Matching base pair with template. Make sure that 15-25 base pairs match. The Tm of the matching regions should be >60C, and the GC content 40%-60%
 +
#PCR: Adding the mutations
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**An example assembly altering DNA at three different points (can do this with as many or as few as needed for your application)
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***Top Strand..... '''T7F'''........'''M1-F'''..................'''M2-F'''....................'''M3-F'''...................
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***Ref Sequence ...................'''X'''.........................'''X'''...........................'''X'''.....................
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***Bottom Strand ...............'''M1-R'''..................'''M2-R'''....................'''M3-R'''............'''T7R'''
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***'''MX-F''' = forward mutation primer '''X'''
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***'''MX-R''' = reverse mutation primer '''x'''
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***'''X''' = mutation site
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***..... = place holder
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**Samples, 1 set without DMSO, 1 set with 5% DMSO
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##'''T7F'''+'''M1-R'''
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##'''M1-F'''+'''M2-R'''
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##'''M2-F'''+'''M3-R'''
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##'''M3-F'''+'''T7R'''
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**PCR 1 Master Mix
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##36.5uL dH2O
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##10uL Phusion Buffer
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##1uL plasmid template
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##1uL 25mM dNTPs
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##0.5uL 100uM Forward primer
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##0.5uL 100uM Reverse primer
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##0.5uL Phusion
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**PCR 1 Cycle
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##98C, 30sec
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##98C, 10sec
 +
##58C, 10sec
 +
##72C, 30sec/kb
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##Repeatsteps2-4 29x
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##72C, 5min
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##4C, forever
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**Run DNA gel (5uL PCR reaction + 1uL 6x loading dye)
 +
***possible outcomes
 +
****Single band at correct fragment size. PCR purify all of PCR product and spec
 +
*****Do not PCR purify chunks less that 70bp, estimate concentration based on gel
 +
****Multiple bands.Run another gel using all PCR product, gel purify correct band, spec
 +
****No bands / no bands at correct length. Change annealing temperature of PCR to gradient (55-72)
 +
#PCR 2: Putting the pieces together
 +
**Need equal-molar concentrations of each piece,normalize concentration to size
 +
**Make 20uL mix of the pieces
 +
**If DMSO worked in PCR 1, add 5% DMSO in PCR 2
 +
**PCR 2 Master Mix
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###18.5uL dH2O
 +
###20uL of pieces mix
 +
###10uL of Phusion Buffer
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###1uL 25mM dNTPs
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###0.5uL Phusion
 +
**PCR 2 cycle
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###98C, 30sec
 +
###98C, 10sec
 +
###58C,10sec (or same as PCR 1)
 +
###72C, 30sec/kb
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###Repeat steps 2-4 '''5'''x
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###72C, 5min
 +
###4C, forever
 +
**No need to purify or anything after PCR 2, just go directly to PCR#3. (I have PCR purified after this step (do not gel purify) and had everything still work though.)
 +
#PCR 3: Amplifying full length construct
 +
**If DMSO worked in PCR 1, add DMSO 5% in PCR 3
 +
**PCR 3 Master Mix
 +
###36.5uL dH2O
 +
###10uL Phusion Buffer
 +
###1uL PCR 2 product
 +
###1uL 25mM dNTPs
 +
###0.5uL 100uM T7F
 +
###0.5uL 100uM T7R
 +
###0.5uL Phusion
 +
**PCR 3 cycle
 +
###98C, 30sec
 +
###98C, 10sec
 +
###58C,10sec (Tm for T7)
 +
###72C, 30sec/kb
 +
###Repeat steps 2-4 29x
 +
###72C, 5min
 +
###4C, forever
 +
**Run gel
 +
***Possible outcomes
 +
****Single band at correct fragment size, PCR purify your final product
 +
****Multiple bands, run another gel using all PCR product, gel purify correct band
 +
****No bands or no bands at right size, Change annealing temperature of PCR to gradient (55-72)
 +
#Next Step: Standard cloning
 +
**digest,purify,ligate,transform
 +
**Happy Dance
 +
 
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{{Template:Team:Washington/Templates/Footer}}

Latest revision as of 00:47, 17 October 2009

Uw title logo.png


SOEing PCR

  1. Design primers
    • VF2 / VR = standard forward and revers primer from original construct
    1. For mutations/insertions/deletions of 1-15 base pairs
    • Forward: 5'-----------------------XXXX-----------------3'
    • Template: 5'----------------------------------------------3'
    • Reverse: 3'-----------------------XXXX-----------------5'
      • X = mismatch base pair with template
      • - = Matching base pair with template. Make sure that 15-25 base pairs match. The Tm of the matching regions should be >60C, and the GC content 40%-60%
    1. For mutations/insertions/deletions of 15+ base pairs
    • Forward: ..............................................5'-XXXX-----------------3'
    • Template:..5'------------------------------------------------3'
    • Reverse:...3'-----------------------XXXX-5'
      • X = mismatch base pair with template
      • - = Matching base pair with template. Make sure that 15-25 base pairs match. The Tm of the matching regions should be >60C, and the GC content 40%-60%
  1. PCR: Adding the mutations
    • An example assembly altering DNA at three different points (can do this with as many or as few as needed for your application)
      • Top Strand..... T7F........M1-F..................M2-F....................M3-F...................
      • Ref Sequence ...................X.........................X...........................X.....................
      • Bottom Strand ...............M1-R..................M2-R....................M3-R............T7R
      • MX-F = forward mutation primer X
      • MX-R = reverse mutation primer x
      • X = mutation site
      • ..... = place holder
    • Samples, 1 set without DMSO, 1 set with 5% DMSO
    1. T7F+M1-R
    2. M1-F+M2-R
    3. M2-F+M3-R
    4. M3-F+T7R
    • PCR 1 Master Mix
    1. 36.5uL dH2O
    2. 10uL Phusion Buffer
    3. 1uL plasmid template
    4. 1uL 25mM dNTPs
    5. 0.5uL 100uM Forward primer
    6. 0.5uL 100uM Reverse primer
    7. 0.5uL Phusion
    • PCR 1 Cycle
    1. 98C, 30sec
    2. 98C, 10sec
    3. 58C, 10sec
    4. 72C, 30sec/kb
    5. Repeatsteps2-4 29x
    6. 72C, 5min
    7. 4C, forever
    • Run DNA gel (5uL PCR reaction + 1uL 6x loading dye)
      • possible outcomes
        • Single band at correct fragment size. PCR purify all of PCR product and spec
          • Do not PCR purify chunks less that 70bp, estimate concentration based on gel
        • Multiple bands.Run another gel using all PCR product, gel purify correct band, spec
        • No bands / no bands at correct length. Change annealing temperature of PCR to gradient (55-72)
  1. PCR 2: Putting the pieces together
    • Need equal-molar concentrations of each piece,normalize concentration to size
    • Make 20uL mix of the pieces
    • If DMSO worked in PCR 1, add 5% DMSO in PCR 2
    • PCR 2 Master Mix
      1. 18.5uL dH2O
      2. 20uL of pieces mix
      3. 10uL of Phusion Buffer
      4. 1uL 25mM dNTPs
      5. 0.5uL Phusion
    • PCR 2 cycle
      1. 98C, 30sec
      2. 98C, 10sec
      3. 58C,10sec (or same as PCR 1)
      4. 72C, 30sec/kb
      5. Repeat steps 2-4 5x
      6. 72C, 5min
      7. 4C, forever
    • No need to purify or anything after PCR 2, just go directly to PCR#3. (I have PCR purified after this step (do not gel purify) and had everything still work though.)
  1. PCR 3: Amplifying full length construct
    • If DMSO worked in PCR 1, add DMSO 5% in PCR 3
    • PCR 3 Master Mix
      1. 36.5uL dH2O
      2. 10uL Phusion Buffer
      3. 1uL PCR 2 product
      4. 1uL 25mM dNTPs
      5. 0.5uL 100uM T7F
      6. 0.5uL 100uM T7R
      7. 0.5uL Phusion
    • PCR 3 cycle
      1. 98C, 30sec
      2. 98C, 10sec
      3. 58C,10sec (Tm for T7)
      4. 72C, 30sec/kb
      5. Repeat steps 2-4 29x
      6. 72C, 5min
      7. 4C, forever
    • Run gel
      • Possible outcomes
        • Single band at correct fragment size, PCR purify your final product
        • Multiple bands, run another gel using all PCR product, gel purify correct band
        • No bands or no bands at right size, Change annealing temperature of PCR to gradient (55-72)
  1. Next Step: Standard cloning
    • digest,purify,ligate,transform
    • Happy Dance
Retrieved from "http://2009.igem.org/Team:Washington/Notebook/SOEingPCR"