1. PCR types and Trouble shooting
Ameer Effat M. Elfarash
Dept. of Genetics
Fac. of Agriculture, Assiut Univ.

2. PCR types Inverse PCR Overlapping PCR
Reverse Transcriptase PCR (RT-PCR)
Real Time PCR (qRT-PCR)
Colony PCR
Nested PCR
Multiplex PCR
Long PCR
Gradient PCR
Hot Start PCR
Inverse PCR
Overlapping PCR
DNA fingerprinting
RAPD
AFLP
RFLP
etc..

3. Conventional PCR Template DNA salts (ions) DNA Polymerase dNTPs
Primers
DNA Polymerase
Template
DNA
DNA nucleotides, the building blocks for the new DNA
Template DNA, the DNA sequence that you want to amplify
Primers, single-stranded DNAs between 18 and 30 nucleotides long (oligonucleotides) that are complementary to a short region on either side of the template DNA
DNA polymerase, a heat stable enzyme that drives, or catalyzes, the synthesis of new DNA

4. Reverse Transcriptase PCR (RT-PCR)
RT-PCR is used to qualitatively detect gene expression

5. Real Time PCR (qRT-PCR)

6. Colony PCR

7. Nested PCR

8. Multiplex PCR

9. Gradient PCR

10. Hot Start PCR
hotstart
normal
Used to optimize the yield of the desired amplified product in PCR and simultaneously to suppress nonspecific amplification.

11. Alvin Submersible for Exploration of Deep Sea Vents
Long PCR
95ºC S
30-60 ºC S
72 ºC min
Standerd PCR
Long PCR
200 bp – 2K bp
5K -20K
Alvin Submersible for Exploration of Deep Sea Vents

12. Inverse PCR

13. Overlapping PCR
PCR 1
PCR 2
PCR 3

14. SSCP ISSR AFLP SNP MASAP SAMPL DArT RFLP COS RAPD VNTR SRAP CAPS SCAR
RDA
SAMPL
Molecular Markers
(DNA fingerprinting)

15. Restriction Fragment Length Polymorphism
(RFLP)

16. Restriction Fragment Length Polymorphism (RFLP)
Restriction site?
Restriction Enzymes: E.g., EcoR1

18. Randomly amplified polymorphic DNA
RAPD

19. Amplified Fragment Length Polymorphism AFLP-PCR

20. PCR Troubleshooting

21. Experiment design Blank reaction Controls for contamination
Contains all reagents except DNA template
Negative control reaction
Controls for specificity of the amplification reaction
Contains all reagents and a DNA template lacking the target sequence
Positive control reaction
Controls for sensitivity
Contains all reagents and a known target-containing DNA template

22. Experimental design 104 bp Negative Control Blank Reaction
Positive Control
Patient 1
Patient 2
Patient 3
Patient 4
Molecular Marker
104 bp

23. Avoiding Contamination
DNA sample preparation, reaction mixture assemblage should be performed in separate areas.
A Laminar Flow Cabinet with a UV lamp is recommended for preparing the reaction mixture.
New gloves should be used for DNA purification.
The use of tips with filters for both DNA sample and reaction mixture preparation
Autoclaving of all buffers is recommended.

24. Troubleshooting PCR
No PCR product
- Marker + no product

25. Troubleshoots
Reagent
PCR cycling
PCR inhibitors
Template DNA
Primers
dNTP’s
Taq DNA Polymerase
Buffer
MgCl2
Thermal cycler.
Detergent
Phenol
Heparin
Heme
Dyes (bromphenol blue)
Urine

26. Tissue type used for DNA extraction Quantity and quality of DNA
DNA template
Tissue type used for DNA extraction
Quantity and quality of DNA
Length of the DNA fragment to be amplified

27. Template DNA:
Larger template DNA amounts usually increase the yield of non-specific PCR products.

28. Too few Mg2+ ions result in a low yield of PCR product
MgCl2 concentration.
Too few Mg2+ ions result in a low yield of PCR product
Too many will increase the yield of non- specific products.
MgCl2 (mM)

29. Taq DNA polymerase. - Higher Taq polymerase concentrations than
needed may cause synthesis of non-specific
products.
No PCR product---Taq Expiered
hotstart
normal

31. dNTPs.
The concentration of 4 dNTPs (dATP,
dCTP, dGTP, dTTP) should be equal in the
reaction mixture.

32. Primers. - The primer should not be self-complementary
or complementary to any other primer in
the reaction mixture, to prevent primer-
dimers and hairpin formation.

33. Tm
Too many bands – Low Tm
Not optimized
Well optimized

34. Troubleshooting PCR Primer dimers and misprime:
Annealing temp. too low (dimers) or too high (misprime).
excess primers
Design primers carefully
Size is the sum of two primer lengths.
Reagent
blank
Molecular
weight
markers
Misprime
PCR
product
Primer
dimers 5’
G 3’
C 3’
Primer Primer 2

35. Cycle parameters

36. PCR Inhibitors Ethanol Detergent Phenol Heparin Heme
Dyes (bromphenol blue)
Urine
High concentration of DNA

37. What if you have too many bands !!!
Specificity of primers.
Annealing temp too low.
Contamination
Primer Conc.
Decrease cycles
Decrease MgCl2 concentration
Not optimized
Well optimized