high resolution melt temperature (hrmt) analysis
TRANSCRIPT
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High Resolution Melts HRM
www.corbettresearch.com
Prepared by Andrea TesorieroPresented by Jennifer McMahon
corbettLIFE SCIENCE
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High Resolution Melts
Analysis of change in fluorescence as a PCR product is melted
PCR amplify an amplicon with two primers and an intercalation dye and then melt the product – double stranded to single stranded
Detect difference between a single base pair change.
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High Resolution Melt Specifications
Instrument requires:high-intensity + high sensitivity optics
high-speed data capture
very precise temperature control and resolution
saturating intercalation dye
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the world’s only real-time rotary thermo-optical analyser with HRM capabilities
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Cross-section of rotary optics
Reaction Chamber
PMT DetectorAssembly
LED Light Source
AssemblyTubes Spin inRotor (Red)
Lens
Detection Filters
Spindle/Motor Assembly
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THERMAL UNIFORMITY- -/+0.01C
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Centrifugal fan drives air around chamber
Chamber vent seals to contain air
Heating mechanism
Note: holes in the rotor allow
free airflow
Heater elements switch on
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Cool air in
Centrifugal fan Drives air into chamber
Centrifugal fan drives air around chamber
Chamber vent opens expelling hot air
Cooling mechanism
Heater elements switch off
Note: holes in the rotor allow
free airflow
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Saturating dye technology for HRM -LCGreen™ I, EVA Green, Syto 9
LC Green™ I
Saturation dyes are less toxic, so concentration usedcan be high enough to allow all sites to be saturated
Saturation eliminates potential for dye relocation-ideal for HRM
SYBR™ Green I is toxic to PCR,so concentration used is very low
Intercalation Chemistries
SYBR® Green I
Unsaturated binding allows dye to relocate as melting begins
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Setting up a Reaction
Use standard PCR conditions as a starting point, typically 250nM primer, 1.5mM Magnesium chloride, 0.2mM dNTPs, 1.25 U Platinum Taq, 1.5μM SYTO 9, 50ng DNADon’t generally usually use real-time mix – decreases cost per assaySet up cycling and add HRM step at the endHRM step typically 0.1°C steps over 10 °C, HRM step takes around 20 minutes
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HRM Profile
0.02deg
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Data Acquisition
Melting curves-normalized by selecting linear regions before and after the melting transitionTwo regions defined-upper 100% double stranded and lower single stranded baseline
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Homoduplexes C or T
Homozygotes represented by a single base changeare differentiated by a difference in Tm melt.
T
A
C
G
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Heteroduplex C>T
Heterozygotes form heteroduplexes, the heterozygote (blue) trace is a mix of 4 duplexes
C
G
T
A
T
G
C
A
+C
G
T
A
++
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Mutants(T allele)
Wild types(C allele)
Heterozygotes
Mutants(T allele)
Wild types(C allele)
Heterozygotes
•ACTN3 (R577X) (C—T).•10 replicates.•40 cycle fast(~34 min).
SOFTWARE: Normalised HRM data
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Difference Graphs
Difference graph displays the difference between each sample and a given genotype controlAllows a calculated percentage confidence relative to a known genotype
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Confidence in HRM Results
Wildtype (72 Replicates)
Mean Tm 78.78 +0.04% Mean Tm 77.90 +0.04%
Mutant (72 Replicates)
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Applications
SNP genotyping/ Allelic discrimination Identify Candidate Predisposition Genes Association Studies-eg.comparing cases and controls, genotype to phenotype Prevalence -within population or different sub groups Loss of Heterozygosity DNA fingerprinting
Mutation Discovery/Screening/Scanning
Predictive Testing Penetrance/Linkage studies-variant track with disease within a family
Species Identification
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GenotypingClass 4 SNP SNP
ClassBase
ChangeTypical Tm
ShiftRarity (in humans)
1 C/T and G/A Large>0.5oC
Very Small >0.2oC
64%2 C/A and G/T 20%
3 C/G 9%
4 A/T 7%
Example of a class 4 SNP on the Rotor Gene (MCT A1470T)The rarest and most difficult SNP to discriminate.
SNP classes as described by Venter et al 2002
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“Spiking” Experiments
Royal Melbourne Hospital
Homozygous A(dark blue)
Homozygous B(Green)
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Tm Comparisons-Factor V G1691A
63bp tctgaaaggttacttcaaggacaaaatacctgtattccTtgcctgtccagggatctgctctta
89bp ggttacttcaaggacaaaatacctgtattccTtgcctgtccagggatctgctcttacagattagaagtagtcctattagcccagaggcg
169bp ttgaaggaaatgccccattatttagccaggagacctaacatgttctagccagaagaaattctcagaatttctgaaaggttacttcaaggac aaaatacctgattccTtgcctgtccagggatctgctcttacagattagaagtagtcctattagcccagaggcgatgt
Amplicon size
Mutation Wildtype Tm Homozygote's
63bp 77.50 ± 0.04 78.18 ± 0.01 0.68 ± 0.05
89bp 79.46 ± 0.02 80.03 ± 0.02 0.57 ± 0.04
169bp 81.49 ± 0.02 82.21 ± 0.02 0.72 ± 0.04
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Sensitivity-Somatic Mutation Discovery 189 bp product 37% GC content
wt
?
Detect small quantities of mutant DNA in a background of wildtype DNA species-sensitivity 5%No homozygous spiking necessary
PMCI-Melbourne
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Sequencing –Somatic variants
wt
Patient 1838 G>A
Patient 13 35 G>T
Patient 6 34 G>T
Patient 22 35 G>T
Forward 3’ Reverse 5’
Sequence directly of the product-product column purified and not consumed
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Difference Graph
wt
38 G>A
35 G>T
34 G>T
35 G>T
38 G>A
35 G>C
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White et al. 2006 report
http://www.ngrl.org.uk/Wessex/downloads.htm
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White et al. 2006 report
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White et al. 2006 report
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White et al. 2006 report
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White et al. 2006 report
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DNA Quality
DNA quality-Multiplex 100, 200, 300, 400 and 600pb product
Amplification of 193bp product
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Poor Quality DNA in = poor results out!Important to view your data Real Time to check DNA quality
Guidleines:
Assess the CT values - integrity of your DNAAssess the amplification efficiencyAssess the derivative plot melt curves-is there one product? Is the PCR optimized? Primer-dimer issues?
Using the Real Time data allows you to make OBJECTIVE decisions about the changes observed
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Applications
Detect small quantities of mutant DNA in background of wildtype DNA speciesImportant in somatically acquired mutationsPooling samples-up to 10 samplesSimple for diseases that cause no heterogeneity-like Factor V Leiden, haemochromotosis, sickle cell anemiaNewly identified genes-little information
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Summary
Simple, fast, cost effective method for gene scanning and detecting a single-base change in your sample Rapid cycle PCR with HRM analysis set up at one timeNO labeled probes, cheap intercalation dyeNO Post-PCR processing with additional reagents such as sequencing, DHPLC, RFLPExcellent sensitivity and specificity - capable of detecting BOTH heterozygous and homozygous changesCosts less than competing technologiesSequence directly off the product- sample not consumedDetect from a pool of 10 samples -1/20 alleles, 5% sensitivityAuto call softwareScanning and genotyping can be performed simultaneously in the same reaction
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Web www.corbettlifescience.com
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