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<font size="5">PCR with Taq Polymerase</font>
<font size="5">PCR with ''Taq'' Polymerase</font>


==Materials==  
==Procedure==
*Taq polymerase (NEB)
* Prepare your template sample
*10X buffer (w/Mg)
** For amplifying ''Sinorhizobium'' sequences, boil a dense suspension of cells in 35 μL [[Griffitts:Common buffers#colony lysis solution (for PCR) (100 mL)|PCR lysis buffer]] for ~2 min and vortex
*dNTP's (10mM) (NEB)
** For amplifying ''E. coli'' with ''Taq'' polymerase (but not ''Pfx50'' polymerase), adding cells directly to the reaction is sufficient
*Template DNA
* Thaw the ''Taq'' buffer, dNTPs, and primers
*Primers (10uM from 100uM stock)
** Keep ''Taq'' polymerase on ice throughout the procedure
* Combine components according to one of [[Griffitts:TaqPCR#Reaction recipes|the recipes below]]
** Set the reaction up on ice
* Select the appropriate cycling program and verify that all of the parameters are correct
** Allow 1 minute of extension time per 1 KB DNA being amplified (15-30 seconds is sufficient for Q5)
* Select "Run program" and select "YES" when asked about heated lid
* Wait until block has reached at least 70°C (this takes a little over 2 min)
* Place PCR tube into the machine
* Lower the lid until it latches and slightly tighten the heated lid onto the tubes
NOTE: When the PCR machine has finished cycling, your samples may be stored at -20°C. You may now proceed to [[Griffitts:Gel_electrophoresis|gel electrophoresis]] and/or [[Griffitts:PCR_clean-up|PCR clean-up]].
 
==Reaction recipes==
===20 μL ''Taq'' reactions===
Use this for diagnostic purposes.
{| border="1" cellpadding="5" cellspacing="0"
|-
! width="120" style="background:#efefef;" | Ingredient
! width="120" style="background:#efefef;" | Per reaction
|-
| dH<sub>2</sub>O
| 14.35 μL
|-
| [[Griffitss:Stock_solutions#10X_Taq_buffer|10X ''Taq'' buffer]]
| 2.0 μL
|-
| [[Griffitss:Stock_solutions#10_mM_DNTPs|dNTPs]]
| 0.5 μL
|-
| ''Taq'' polymerase
| 0.15 μL
|-
| forward primer
| 1.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| reverse primer
| 1.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| DNA template
| 1.0 μL
|}
<br>
 
===40 μL ''Taq'' reactions===
This is the standard recipe. Use it in most cases for fragment amplification and sequencing.
{| border="1" cellpadding="5" cellspacing="0"
|-
! width="120" style="background:#efefef;" | Ingredient
! width="120" style="background:#efefef;" | Per reaction
|-
| dH<sub>2</sub>O
| 28.7 μL
|-
| [[Griffitss:Stock_solutions#10X_Taq_buffer|10X ''Taq'' buffer]]
| 4.0 μL
|-
| [[Griffitss:Stock_solutions#10_mM_DNTPs|dNTPs]]
| 1.0 μL
|-
| ''Taq'' polymerase
| 0.3 μL
|-
| forward primer
| 2.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| reverse primer
| 2.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| DNA template
| 2.0 μL
|}
<br>
 
===40 μL reaction with ''Pfx'' polymerase===
Use this for high-fidelity cloning.
{| border="1" cellpadding="5" cellspacing="0"
|-
! width="120" style="background:#efefef;" | Ingredient
! width="120" style="background:#efefef;" | Per reaction
|-
| dH<sub>2</sub>O
| 27 μL
|-
| [[Griffitss:Stock_solutions#10X_Taq_buffer|10X ''Pfx'' buffer]]
| 4.0 μL
|-
| [[Griffitss:Stock_solutions#10_mM_DNTPs|dNTPs]]
| 1.2 μL
|-
| ''Pfx'' polymerase
| 1.0 μL
|-
| forward primer
| 2.4 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| reverse primer
| 2.4 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| DNA template
| 2.0 μL
|}
<br>


==Procedure==
===20 μL reaction with ''Q5'' polymerase===
# Thaw buffer, dNTP's and primers. Keep polymerase on ice throughout the procedure.  
Use this for high-fidelity cloning, especially for products >3kb.
# In standard PCR tube combine components according to the recipe below. Set the reaction up on ice.
{| border="1" cellpadding="5" cellspacing="0"
# Select the appropriate cycling program and verify that all of the parameters are correct.
|-
# Select Run program and select "YES" when asked about heated lid.
! width="120" style="background:#efefef;" | Ingredient
# Wait until block has reached the beginning temperature. Place PCR tube into the machine.
! width="120" style="background:#efefef;" | Per reaction
# Lower the lid until it latches and slightly tighten the heated lid onto the tubes.
|-
| dH<sub>2</sub>O
| 12.4 μL
|-
| [[Griffitss:Stock_solutions#5X_Q5_buffer|5X ''Q5'' buffer]]
| 4.0 μL
|-
| [[Griffitss:Stock_solutions#10_mM_DNTPs|dNTPs]]
| 0.4 μL
|-
| ''Q5'' polymerase
| 0.2 μL
|-
| forward primer
| 1.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| reverse primer
| 1.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| DNA template
| 1.0 μL
|}
<br>
 
===40 μL reaction with ''Q5'' polymerase===
Use this for high-fidelity cloning, especially for products >3kb.
{| border="1" cellpadding="5" cellspacing="0"
|-
! width="120" style="background:#efefef;" | Ingredient
! width="120" style="background:#efefef;" | Per reaction
|-
| dH<sub>2</sub>O
| 24.8 μL
|-
| [[Griffitss:Stock_solutions#5X_Q5_buffer|5X ''Q5'' buffer]]
| 8.0 μL
|-
| [[Griffitss:Stock_solutions#10_mM_DNTPs|dNTPs]]
| 0.8 μL
|-
| ''Q5'' polymerase
| 0.4 μL
|-
| forward primer
| 2.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| reverse primer
| 2.0 μL [[Griffitts:TaqPCR#Primer Dilution|diluted 1:10]]
|-
| DNA template
| 2.0 μL
|}
<br>


==Recipes==
===Master Mix Calculations===
'''Standard reaction'''<br>
{| border="1" cellpadding="5" cellspacing="0"
37ul H2O<br>
|-
5ul 10X buffer<br>
! width="200" style="background:#efefef;" | Ingredient
1ul dNTPs<br>
! width="150" style="background:#efefef;" | 20 μL reaction
0.4ul Taq<br>
with ''Taq'' polymerase
1ul template<br>
! width="150" style="background:#efefef;" | 40 μL reaction
3ul primer1<br>
with ''Taq'' polymerase
3ul primer2<br><br>
! width="150" style="background:#efefef;" | 40 μL reaction
'''PCR lysis buffer'''<br>
with ''Pfx'' polymerase
5mM Tris pH8<br>
! width="150" style="background:#efefef;" | 40 μL reaction
2mM EDTA<br>
with ''Q5'' polymerase
0.5% Triton<br>
|-
| dH<sub>2</sub>O
| 16.15 μL
| 32.3 μL
| 31.3 μL
| 24.8 μL
|-
| [[Griffitss:Stock_solutions#10X_Taq_buffer|10X ''Taq'' buffer]]
| 2.0 μL
| 4.0 μL
| 4.0 μL
| 8.0 μL
|-
| [[Griffitss:Stock_solutions#10_mM_DNTPs|dNTPs]]
| 0.5 μL
| 1.0 μL
| 1.2 μL
| 0.8 μL
|-
| polymerase
| 0.15 μL
| 0.3 μL
| 1.0 μL
| 0.4 μL
|-
| forward primer
| 0.1 μL ''undiluted''
| 0.2 μL ''undiluted''
| 0.25 μL ''undiluted''
| 0.2 μL ''undiluted''
|-
| reverse primer
| 0.1 μL ''undiluted''
| 0.2 μL ''undiluted''
| 0.25 μL ''undiluted''
| 0.2 μL ''undiluted''
|-
| '''Total volume (without template)'''
| '''19 μL'''
| '''38 μL'''
| '''38 μL'''
| '''38 μL'''
|}
<br>
<br>


==Notes==
==Primer Dilution==
*If performing multiple PCR's with the same primers, then just use 100uM stock, calculate for 0.3ul per reaction, and correct the volume of water.
* 27 μL dH<sub>2</sub>O
*For amplifying rhizobium sequences, we typically boil a dense suspension of cells in PCR lysis buffer, and use this as template. Adding cells directly to the reaction may be sufficient.
* 3 μL primer
Repeat for both primers

Latest revision as of 16:02, 30 September 2013


PCR with Taq Polymerase

Procedure

  • Prepare your template sample
    • For amplifying Sinorhizobium sequences, boil a dense suspension of cells in 35 μL PCR lysis buffer for ~2 min and vortex
    • For amplifying E. coli with Taq polymerase (but not Pfx50 polymerase), adding cells directly to the reaction is sufficient
  • Thaw the Taq buffer, dNTPs, and primers
    • Keep Taq polymerase on ice throughout the procedure
  • Combine components according to one of the recipes below
    • Set the reaction up on ice
  • Select the appropriate cycling program and verify that all of the parameters are correct
    • Allow 1 minute of extension time per 1 KB DNA being amplified (15-30 seconds is sufficient for Q5)
  • Select "Run program" and select "YES" when asked about heated lid
  • Wait until block has reached at least 70°C (this takes a little over 2 min)
  • Place PCR tube into the machine
  • Lower the lid until it latches and slightly tighten the heated lid onto the tubes

NOTE: When the PCR machine has finished cycling, your samples may be stored at -20°C. You may now proceed to gel electrophoresis and/or PCR clean-up.

Reaction recipes

20 μL Taq reactions

Use this for diagnostic purposes.

Ingredient Per reaction
dH2O 14.35 μL
10X Taq buffer 2.0 μL
dNTPs 0.5 μL
Taq polymerase 0.15 μL
forward primer 1.0 μL diluted 1:10
reverse primer 1.0 μL diluted 1:10
DNA template 1.0 μL


40 μL Taq reactions

This is the standard recipe. Use it in most cases for fragment amplification and sequencing.

Ingredient Per reaction
dH2O 28.7 μL
10X Taq buffer 4.0 μL
dNTPs 1.0 μL
Taq polymerase 0.3 μL
forward primer 2.0 μL diluted 1:10
reverse primer 2.0 μL diluted 1:10
DNA template 2.0 μL


40 μL reaction with Pfx polymerase

Use this for high-fidelity cloning.

Ingredient Per reaction
dH2O 27 μL
10X Pfx buffer 4.0 μL
dNTPs 1.2 μL
Pfx polymerase 1.0 μL
forward primer 2.4 μL diluted 1:10
reverse primer 2.4 μL diluted 1:10
DNA template 2.0 μL


20 μL reaction with Q5 polymerase

Use this for high-fidelity cloning, especially for products >3kb.

Ingredient Per reaction
dH2O 12.4 μL
5X Q5 buffer 4.0 μL
dNTPs 0.4 μL
Q5 polymerase 0.2 μL
forward primer 1.0 μL diluted 1:10
reverse primer 1.0 μL diluted 1:10
DNA template 1.0 μL


40 μL reaction with Q5 polymerase

Use this for high-fidelity cloning, especially for products >3kb.

Ingredient Per reaction
dH2O 24.8 μL
5X Q5 buffer 8.0 μL
dNTPs 0.8 μL
Q5 polymerase 0.4 μL
forward primer 2.0 μL diluted 1:10
reverse primer 2.0 μL diluted 1:10
DNA template 2.0 μL


Master Mix Calculations

Ingredient 20 μL reaction

with Taq polymerase

40 μL reaction

with Taq polymerase

40 μL reaction

with Pfx polymerase

40 μL reaction

with Q5 polymerase

dH2O 16.15 μL 32.3 μL 31.3 μL 24.8 μL
10X Taq buffer 2.0 μL 4.0 μL 4.0 μL 8.0 μL
dNTPs 0.5 μL 1.0 μL 1.2 μL 0.8 μL
polymerase 0.15 μL 0.3 μL 1.0 μL 0.4 μL
forward primer 0.1 μL undiluted 0.2 μL undiluted 0.25 μL undiluted 0.2 μL undiluted
reverse primer 0.1 μL undiluted 0.2 μL undiluted 0.25 μL undiluted 0.2 μL undiluted
Total volume (without template) 19 μL 38 μL 38 μL 38 μL



Primer Dilution

  • 27 μL dH2O
  • 3 μL primer

Repeat for both primers

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