polymerase chain reaction (pcr) lab 2. today’s lab principles of pcr the actual reaction primer...
TRANSCRIPT
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Polymerase Chain Reaction (PCR)
Lab 2
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Today’s lab
• Principles of PCR
• The actual reaction
• Primer design
• Limitations, troubleshooting and uses
• Variations
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DNA Structure
Sugar-Phosphate backbone
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What Is PCR?
• In vitro technique
• Amplification of specific DNA sequence between two regions of known sequence
• Invented 1985
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Overall Principle of PCR
DNA – 1 copy
Known sequenceSequence of interestKnown sequence
PCR
Lots of copies
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Why PCR?
• To ‘pull the needle out of the haystack’
• Rapid & easy
• Sensitive
• Robust
• Widespread applications
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The Cycling Reactions
• Denature: ‘separate D.S DNA’
• Anneal: ‘stick primers to S.S DNA’
• Extend: ‘make new DNA from template’
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Components of Reaction
• Template DNA
Taq
dTTP
dCTP dGTP
dATP
Primers
DNA Polymerase
dNTPs
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Denaturation
• Temperature: 92-94C
• Double stranded DNA melts single stranded DNA
92C
3’5’
3’ 5’
+
5’3’
5’ 3’
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Annealing
• Temperature: ~50-70C (dependant on the melting temperature of the expected duplex)
• Primers bind to their complementary sequences
5’3’
5’ 3’
Forward primer Reverse primer
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Extension
• Temperature: ~72C• Time: 0.5-3min• DNA polymerase binds to the annealed primers and
extends DNA at the 3’ end of the chain5’ 3’
Taq5’
5’3’
Taq5’
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Extension (2)
5’ 3’
5’3’
Taq
Taq5’
5’
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Properties of Polymerase
• Taq polymerase originally isolated from from Thermus aquaticus
• Heat stable (half life of ~ 30min at 95C)• Taq DNA polymerase has no proof-
reading function in 3’―5’ direction• Primer extension occurs at up to 100
bases/sec• Plateau is reached eventually
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Products of Extension
3’5’
3’ 5’
3’5’
3’ 5’
Taq
Taq
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Cycle Begins Again………
3’5’
3’ 5’
3’5’
3’ 5’
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Products after 2 cycles
3’5’
3’ 5’3’5’
3’ 5’
3’5’
3’ 5’
3’5’
3’ 5’
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Products after 3 cycles…..
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Geometric Amplification
1 2 4 8
16 32 64 128
256 512 1024 2048
4096 8192 16384 32768
Timescale: e.g. 93C: 5 min
93C: 45 sec
53C: 45 sec
72C: 1 min
72C: 5 min
X 30
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Polymorphisms
Single base change at 3’ - primer won’t bind fully
3’
5’ 3’
5’
Normal Sequence
Sequence containing polymorphism
5’3’
5’3’
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• Dolan DNA learning centre
• http://www.dnai.org/b/index.html
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Primer Design
• Base composition: GC content 40-60%
• Length: ~18-24 bases
• Melting temp (Tm) of 2 primers: shouldn’t differ by more than ~5C
• Tm of amplification product: shouldn’t differ from Tm of primers by those of primers by more than ~10C
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Primer Design (cont)• 3’ terminal sequences critical• Cycling and buffer conditions adjusted for
each primer pair• Complimentary sequences on pairs of
primers to be avoided
Primer 1
Primer 23’
3’
Primer Dimer
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Primer Design (cont)
• Self complimentary sequences on primers also to be avoided
Primer
2 new primers generated
Primer secondary structure
Not complimentary to DNA sequence – cannot bind
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PCR Primer Design - Summary
• PRIMER LENGTH - usually 18-30 bases is optimal. A primer of 18 bases should, in theory, only hybridize in one position in a eukaryotic genome.
• SELF-COMPLEMENTARITY -primer pairs should always be checked for complementarity. Complementarity at the 3’end can often lead to primer dimer formation. Complementary sequences within a single primer - especially if GC rich - can lead to hairpin loops or other secondary structures being formed. Commercially available computer programmes can be used to search for complementary sequences in primers so that these can be avoided.
• SPECIFICITY - the 3’ terminal sequence of a primer is critical for PCR specificity and sensitivity. A run of 3 or more G or C bases at this position should be avoided ( can cause non-specific annealing ). Also T should not be used at the 3’ end as it is more prone to mis-priming than the other nucleotides. Bases at the 5’ end are less critical for primer annealing, so if a restriction enzyme site is to be introduced, it should be closer to this end.
• G + C CONTENT - aim for 40% - 60%.
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Things to try if PCR does not work
• A) If no product ( of correct size ) produced:– 1 Check DNA quality
– 2 Reduce annealing temperature
– 3 Increase magnesium concentration
– 4 Add dimethylsulphoxide ( DMSO ) to assay ( at around 10% )
– 5 Use different thermostable enzyme
– 6 Throw out primers - make new stocks
• B) If extra spurious product bands present– 1 Increase annealing temperature
– 2 Reduce magnesium concentration
– 3 Reduce number of cycles
– 4 Try different enzyme
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Basic requirements for PCR reaction
1) DNA sequence of target region must be known.
2) Primers - typically 20-30 bases in size.These can be readily produced by commercial companies. Can also be prepared using a DNA synthesizer
3) Thermo-stable DNA polymerase - eg Taq polymerase which is not inactivated by heating to 95C
4) DNA thermal cycler - machine which can be programmed to carry out heating and cooling of samples over a number of cycles.
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STANDARD PCR REACTION
• Genomic DNA - 100ng ( approx )• Forward & reverse primers at 0.1-0.5μM concentration.• dATP, dCTP, dGTP, dTTP - each at 0.2mM conc.• Appropriate buffer containing magnesium.• Taq polymerase - 0.5 - 1 unit• Sterile H2O - to give required total reaction volume
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STANDARD PCR METHOD
• Prepare mix containing primers, dNTP’s, buffer and water sufficient for all reaction tubes or microtitre plate wells
• Aliquot appropriate volume to each 0.2ml thin walled tube or plate well. (robotic system can be used with plates)
• Add DNA to each tube - using a new tip for each sample• Add Taq polymerase - load tubes on PCR machine• If PCR machine does not have heated lid, 1 drop of
mineral oil should be added to each tube before adding Taq. The Taq can be added with the tubes in the PCR machine block at 80C = hot start.
• Start PCR programme
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Example of PCR programme
• Initial denaturation 95C for 5 mins
• Thermo-cycle file - 30 cycles of• Denaturation : 95C for 30 secs• Annealing : 55C for 30 secs• Extension : 72C for 45 secs
• Final extension 72C for 5 mins• Holding ( soak ) file usually 4C
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Advantages of PCR
• Small amount of DNA is required per test - 100-200ng for PCR; 5-10μg for Southern blotting.
• Result obtained more quickly - usually within 1 day for PCR; 5-10 days for Southern.
• Usually not necessary to use radioactive material (32P) for PCR.
• PCR is much more precise in determining the sizes of alleles - essential for some disorders.
• PCR can be used to detect point mutations.
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Checklist
• Is there a product formed?
• Is the product of the correct size?
• Is only one product formed?
1800bp
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What can you do with PCR products?
• Gel electrophoresis – presence/absence of product, size determination
• Restriction endonuclease digestion• Sequencing
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Applications
• Amplify DNA for genetics applications, cloning, sequencing, mapping DNA segments, infectious disease diagnosis, sex determination, forensics, evolutionary biology, archaeology…….