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Dr. Chaim Wachtel. Introduction to PCR and qPCR Part II: PCR!!. qPCR technical workflow. DNA Extraction. Data Analysis. Sampling. qPCR. RNA Extraction. DNase treatment. Reverse Transcription. Different methods Importance of high quality RNA. Choice of primer Choice of enzyme
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Dr. Chaim Wachtel Introduction to PCR and qPCR Part II: PCR!!
qPCR technical workflow DNA Extraction Data Analysis Sampling qPCR RNA Extraction DNase treatment Reverse Transcription • Different methods • Importance of high quality RNA • Choice of primer • Choice of enzyme • Variability of reaction
Primer design – key to successful PCR Good primer design saves time and money Advanced applications require even more stringent primer design Multiplex Low abundance
Good primer (pair) properties Primers should have 18-24 bases 40-60% G/C Balanced distribution of G/C and A/T bases Tm that allows annealing at 55-65°C No internal secondary structures (hair-pins) Primer pairs should have Similar melting temperatures, Tm , within 2-3 °C No significant complementarity (> 2-3 bp) particularly not in the 3’-ends
The primer dimer (PD) problem Primers that interact are amplified by PCR. PD formation competes with the designed PCR and can compromise the reaction efficiency. Sense ´3 ´3 Antisense Cycling... Sense cAntisense Antisense Sense Sense Antisense
Considerations Avoid targets with secondary structure Avoid pseudogenes Avoid genomic contamination by designing primers to span intron-exon-junctions PCR primers introns exons
Links for designing primers • http://www.tataa.com/ • http://www.ncbi.nlm.nih.gov/BLAST/ • www.premierbiosoft.com/netprimer/netprlaunch/netprlaunch.html • www.ensembl.org • http://www-genome.wi.mit.edu/cgi-bin/primer/primer3_www.cgi • http://www.bioinfo.rpi.edu/applications/mfold/dna/form1.cgi • Primer Design- Beacon Designer/AlelleID • Primer express 3 (AB)
Primer design-work flow No Satis- factory? Find sequence Design Primers Check Primers Yes Run PCR NCBI or Ensembl Primer3 or similar software for desired parameters - Tm - amplicon size • secondary structure • - complementarity - specificity Netprimer, BLAST and similar software …and gel electrophoresis to check specificity and functionality
TaqMan Probe Design Amplicon size 70-150 bp Tm of probe 68-70 °C G/C content 30-70% No G at the 5´end Avoid runs of identical nucleotides Avoid secondary structure Avoid complementarity with primers HPLC purification
Popular dyes and quenchers FAM JOE HEX TET VIC ROX Cy • DABCYL • TAMRA • Black Hole Quenchers
RT-PCR • Housekeeping genes • What are they • How do you choose • Standard curve • Primer Dimer • Melt curve • Optimization • Test samples Reference
Baseline settings Baseline - is the initial cycles in PCR where there is little change in fluorecence signal, usually cycle ~3-15 • Set the baseline • Fixed number of cycles • Adaptive baseline • Control baselines in the linear scale (y-axis)
The different phases Exponential growth phase Plateau phase Part of exponential growth phase where signal > background(noise) Samples must be compared in the exponential phase
Setting threshold Purpose: Find a level of fluorescence where samples can be compared The theoreticalcycle where a sample intersect the threshold is called Ct Linear scale Logarithmic scale Threshold level Log Ct values
Setting threshold Ct (threshold cycle): Threshold cycle reflects the cycle number at which the fluorescence generated within a reaction crosses the threshold. It is inversely correlated to the logarithm of the initial copy number. A two-fold difference in copy number should have one Ct difference no matter where the threshold is set within the exponential phase
Dilution series and standard curves Used to control the quality of your assays Absolute quantification Standards = Diluted templates of known concentration Standard curve = Ct of each standard sample is plotted against the known concentration Used to determine concentrations of unknown samples Absolute quantification is dependent on the quality of the standard curve
Standard curve Comment: Always cover the whole range of sample concentrations.
Interpretation ofthe standard curve Linear regressionY = ax + ba = slope that gives efficiency of PCR from 10–1/a = 1 + efficiency b = # of cycles for detecting one molecule
30 25 20 15 10 5 0 1.E+03 1.E+04 1.E+05 1.E+06 1.E+07 1.E+08 1.E+09 Concentration (log scale)
Relative quantification Often there is no good standard available Compare amount with reference Reference genes Genomic DNA Spike Ribosomal RNA Example Expression of target gene is 10% of the expr. of housekeeping gene. Same gene in other tissue, expression is 100%.
MIQUE Nomenclature • MIQUE - Minimum Information for Publication of Quantitative Real-Time PCR experiments Suggested nomenclature • Reference genes not housekeeping genes • Quantification not quantitation • Hydrolysis probes not TaqMan probes • Quantification cycle Cq replaces Ct, Cp, TOP
Melting curve analysis Melting curves are obtained by measuring the fluorescence while increasing temperature Use a dye binding to double stranded DNA 70 95 Temp 80 90
Melting curve analysis Confirms formation of the expected product (each dsDNA has its characteristic melting temp Tm) Distinguishes between specific PCR products and non-specific products (e.g. primer-dimers) High resolution melt – mutation and methylation analysis
Melting curve derivative 1st Tm = 90 °C Melting temperature Tm is characteristic of the %GC, length and sequence. The product can be identified from the Tm. Tm = 81.5 °C
4-steps PCR 4-steps PCR can be used to eliminate primer-dimer signals 40 cycles
100% efficiency 75% efficiency
100% efficiency 90% efficiency
80% efficiency 50% efficiency
RT-PCR –testing samples • ALWAYS perform melt curve • ALWAYS run negative controls • No RT • No template • Always Always Always run standard curve • Triplicate of each sample!!
Requirements for RT-PCR Experiment • Always perform standard curve • All samples in triplicate • NTC control • No RT control • Prepare mix without cDNA; add this to each tube separately • Divide plate by gene and not sample • Do not need reference gene on every plate • Melt Curve • Check RNA- otherwise don’t bother with experiment • Do not rely on only 1 reference gene- check more than one per project • Every project is different! • Don’t be afraid to ask me questions, especially BEFORE starting the project.
Digital PCR From Relative quantity to absolute quantity
http://cgs.hku.hk/portal/files/GRC/Events/Seminars/2012/20120502/qx100%20digital%20pcr%20introduction%20mikki%20koo.pdfhttp://cgs.hku.hk/portal/files/GRC/Events/Seminars/2012/20120502/qx100%20digital%20pcr%20introduction%20mikki%20koo.pdf
Commercially available machines Fluidigm QuantaSoft (Life Technologies)
Rain Dance Bio Rad QX100