Transcript Uses of PCR

Laboratory: Unit 3: PCR (pages 54-55)
Lecture: PCR & primer stock preparation
In-Class Writing: abstract for AEM 63: 2647-53,
1997 (page 68)
Hand In: abstract (page 68)
Read: AEM 76: 8117-8125, 2010
Due Next Class: nothing
Factors that affect PCR:
Buffer: Mg2+, pH, dNTPs, salt, primer & template
Template quality & quantity
Facilitators (acetamide; 2-pyrolidone)
Inhibitors (humic acid; hemoglobin)
Annealing temperature
(primer length & G/C content; KCl concentration)
Initial temperature: hot start vs. cold start
Cycle number
Factors that affect PCR:
Primer sequence interactions with:
itself, other primer, undesired templates
Polymerase fidelity & processivity
Cycler: temperature uniformity; ramp time; hot top
Reaction tubes: material & thickness
Ability of exclude or destroy extraneous DNAs
Uses of PCR:
Amplify DNA for sequencing;
sequence amplicon (Ex. 3); clone & sequence (Ex. 4).
Add restriction sites to ends of a gene.
Detect small amounts of DNA.
Make specific mutations; overlap extension PCR.
Make "random" mutations; error-prone PCR.
Amplify unknown sequences flanking known
sequence.
Uses of PCR:
Associate physical markers with genes:
Random Amplification of Polymorphic DNA
(RAPD).
cDNA cloning:
Rapid Amplification of cDNA Ends (RACE).
Quantitative real-time PCR:
dye fluoresces when bound to double-stranded
DNA.
Abuses of PCR:
Use PCR to build a gene fusion but fail to sequence
the clone; PCR is error prone.
PCR is extremely sensitive to DNA contamination.
Quantitative measurements are more accurate using
hybridization instead of PCR.
Aerosol resistant pipet tips are NOT aerosol proof.
Commercial dNTPs are contaminated with human
and animal DNA.
Other reagents may be contaminated too.
Abuses of PCR:
Inadequate no-template controls.
Use 1 or 2 controls per sample.
Failure to determine sensitivity for each
primer set & reaction cocktail.
Failure to remove PCR inhibitors.
Dilution works well; requires no knowledge
of inhibitor chemistry.
Abuses of PCR:
Cross contamination between samples
when processing multiple samples
due to inadequate cleanup of equipment &
lack of physical precautions.
Use dedicated equipment, glove boxes,
separate rooms for each step.
Use bleach to decontaminate equipment.
Abuses of PCR:
UV irradiate reagents to remove extraneous DNA.
Ineffective if dNTPs present.
UV destroys DNA polymerase if dNTPs absent.
Increase efforts to exclude extraneous DNA.
Reduce PCR cycles until contaminating DNAs
not detected in no-template controls.
Dissolve 20-base primer (MW = 6600) in 1 ml water.
Pipet 5 ul into 495 ul water.
Absorbance @ 260 nm = 0.61
1 OD260 = 33 ug/ml for single-stranded DNA.
Concentration of undiluted primer stock?
MW = 6600  1M stock = 6600 g/l
1 uM stock = 6600 ug/l = 6.6 ug/ml
5 ul into 495 ul water = 1/100 dilution
OD260 of diluted stock = 0.61
concentrated stock = 0.61 OD260 x 100 x 33 ug/ml/ OD260
= 2013 ug/ml
2013 ug/ml x 1 uM/6.6 ug/ml = 305 uM
Dilute concentrated primer stock to
10 uM stock.
You have 305 uM stock;
you want 10 uM stock.
Divide what you want by what you have:
10 uM/305 uM = 0.0328 = 3.28/100
29 nmol/290 ul = 0.1 nmol/ul = 100 umol/l
= 100 uM
25-nucleotide primer
(50% G+C; 100% complementary to template)
PCR contains 100 mM NaCl
What is melting temperature (Tm) of duplex DNA formed
between primer and template DNA?
Tm = 16.6 log [Na] + 0.41 (% G+C) + 81.5 - 500/bp
[Na] = molar salt concentration
% G+C = percentage (whole number; 50% = 50)
bp = length of DNA:DNA hybrid in base pairs.
Tm = 16.6 log[0.1] + 0.41 x 50 + 81.5 – 500/25
= 16.6 (-1)
+ 20.5
+ 81.5 – 20
= 65.5oC
bp
Test of PCR Reagents
+ = template added; - = no-template control
Fermentas
100-bp
Gene Ruler
Plus
DNA ladder