Transcript PCR
Polymerase Chain Reaction (PCR) Nahla Bakhamis Multiple copies of specific DNA sequences; ‘Molecular Photocopying’ Polymerase Chain Reaction • 1983; In vitro enzymatic amplification of specific DNA sequences from the genome (2 regions of known sequence). As many as billion times C T T A C C G T G G T A A A T C G G A A T G G C A C C A T T T A G C PCR Properties: Rapid & easy. Sensitive. Robust. Widespread applications; Bioinformatics, forensics, medicine and genetic research. PCR uses: • • • • • Replacement of cloning. Diagnosis of chromosomes abnormalities (QF-PCR). Diagnosis of single gene defect. Searching for genes and mutations. Cancer genetics. PCR requirements: • • • • • Known DNA seq of target region. Primers 18-25 bases. Thermo-stable DNA polymerase Taq-polymerase dNTPs Thermal cycler. Reagents for PCR reaction: • DNA template (1-5µL). • 2 primers (1-3µL); if excess Primer-dimer - complementary to 3’ end - length 18-25 bp - CG content 45-60% Master mix: a. Taq-polymerase b. dNTPs – deoxynucleoside triphosphates. c. Buffer d. Cofactors; Mg2+, Mn2+ and potassium ions Properties of the polymerase: • • • • Isolated from Thermus aquaticus. Heat stable (half-life 30min at 95c). No proof reading function in 3’to 5’ direction. Primer extension up to 100bases/sec. Primer-dimer: • Results from primers annealing each other at 3’ end due to complementary bases in the primers. • Extended primers are no longer atcggactatcga gctatacttatggcca available to prime target for PCR. atcggactatcgatatgaataccgga • Polymerase amplify the dimer tagcctgatagctatacttatggcca Primer-dimer: Stages in PCR: 1. Denaturation: Heat to separate ds (93-95c) 2. Annealing: Primers bend to complementary seq (50-70c). 3. Elongation: adding of dNTPs. Analysis of PCR products: • • • • Gel electrophoresis Southern hyperdization Restriction digestion Denaturing gradient gel electrophoresis DGGE: detect 95% of mutations • Florescent PCR Analysis of PCR products: Florescent PCR: • Primers labelled with florescent molecule at 5’end • Products detected by laser analysis system: - exact sizing of PCR products - can use more than one colour of florescent ABI 310 Prism Problems affecting PCR: Problem Possible reasons No product Primer annealing? Product of incorrect size Primer annealing else where in the genome? Several products formed Contamination? Several annealing sites? PCR rxn inhibitors: Proteinase K ---- digest polymerase Phenol --------- denature the polymerase Advantages of PCR: • • • • • • Uses less patient DNA Quick results (3hrs) Usually no radioactive materials Precise in determining sizes of alleles Detect point mutation Less expensive Limitations of PCR: • Target DNA sequence must be known • Errors of Taq-polymerase • Size limitation (CG triplet repeats) PCR based technologies: 1. Multiplex PCR: 1988 • • • • • Single template or multiple template Different Pb length, to form distinct bands. Target seq different enough. Save time, effort Cross hyperdization or miss-priming 2. QF-PCR; Quantitative florescent PCR • Primers tagged with florescent label; Different colour & size (polymorphic markers). • Used to know: -If the seq is present or not -No of copies in the sample • Analysed by; automated genetic analyser. QF PCR for prenatal diagnosis: • • • • • Detect aneuploidy 13, 18, 21 & recently X chr. CVS or amnio results in less than 2 days Looking for ratio 1:1 or 2:0 (normal) Or 1:1:1, 2:1 or 3:0 (trisomy). 3.q-PCR; real time PCR: • • • • 1996 amplified DNA is detected as the reaction progresses ‘real-time’ Uses: genotyping, mutation detection, gene expression Instrumentation: -ABI TaqMan: 96-well Block cycler with fluorimeter. -Roche Lightcycler: Glass capillary reaction tubes, 40 cycles in 15-20 min. 3.q-PCR; real time PCR: **Compare sample by normalising control 4- RT-PCR: Reverse transcriptase PCR: • Use mRNA as a template to produce cDNA; Reverse transcriptase enzyme • cDNA is then amplified to screen possible mutations directly. Reverse transcriptase enzyme Uses of RT-PCR: Diagnosis of genetic diseases (RNA). Gene expression Insertion of eukaryotic genes into prokaryotes Studying the genomes of viruses composed of RNA; Influenza virus A HIV Thank you Questions?