Real-Time PCR Doctor | High Resolution Melt (HRM) Analysis Experiments

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Overview

Listed below are some common symptoms in an HRM experiment. Select one of the symptoms to view possible causes and solutions.

Related Topics: Gene Expression/Quantification Experiments and Allelic Discrimination Experiments.

Missed Call or Clustering

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A missed call or clustering may be due to the causes below. Select one of the causes for possible solutions.

 

Small Thermal Changes

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Small thermal changes between two sequences can be difficult to differentiate, and these changes can arise from sources such as sequence differences, sample quality, amplicon length, primer design, and PCR reagents.

Possible Solutions Use at least one positive control for each target.
  Decrease the amplicon size. This will increase the difference in signal at a given temperature between two sequences that differed at only one nucleotide position.
  During analysis, use the cluster with the most distinct visual difference between the various sequence types as the reference cluster. This will help minimize trace overlap.
  Perform a dilution series of the PCR template to determine whether the effect of the inhibitory agent can be reduced.
 

Recommended Products and Links

Primer Design

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In some cases, the GC content of the primers can affect the melting temperature of your target. Ensuring that the temperature shift will not be affected by the sequence of your primer set will improve calls and clustering.

Possible Solutions Design new primers with less GC content.
 


Amplification Did Not Reach Plateau

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An insufficient amplification where your reactions do not reach plateau may be due to the causes below. Select one of the causes for possible solutions.

 

Low-Quality DNA

Back to Top

Low-quality DNA may prevent samples from reaching high plateau, which can result in inconclusive high resolution melt (HRM) data. Improving the DNA quality will ensure that the HRM data is not skewed and will be called appropriately.

Possible Solutions Increase starting quantity.
  Add more PCR cycles to protocol.
 

Long Amplicon

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The length of an amplicon can influence the amplification and melt profile if the sequence contains more than one mutation. As a result, the mutation of interest can be difficult to separate from the other sequence variants if primer sets are designed for longer amplicons (> 300 bp).

Possible Solutions Use amplicons with a target length <300 bp to improve detection of sequence variants.
 

Recommended Products and Links

Poor Amplification or Failed Reaction

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Poor amplification or failed reactions may be due to the causes below. Select one of the causes for possible solutions.

 

Low-Quality DNA

Back to Top

Successful HRM analysis is highly dependent on the quality of the amplicons being compared. Low-quality DNA may produce nonspecific PCR products that can affect the melt profile.

Possible Solutions Increase starting concentration.
  Add more PCR cycles to protocol.
 

Inhibitors

Back to Top

Sometimes inhibitors of PCR are carried over from sample preparation (nucleic acid extraction). Common PCR inhibitors include phenol, detergents, proteases, and residual compounds from source materials, such as animal or plant tissue, body fluids, or soil preparations. Suboptimal reactions containing inhibitors are likely to affect the reactions and thus any postanalysis, such as HRM analysis.

Possible Solutions Take extra care with the nucleic acid extraction steps to minimize carryover of PCR inhibitors.
  Add more PCR cycles to protocol.
 

Recommended Products and Links


Further Reading

Castellanos E et al. (2010). Rapid identification and differentiation of Mycobacterium avium subspecies paratuberculosis types by use of real-time PCR and high-resolution melt analysis of the MAP1506 locus. J Clin Microbiol 48, 1474–1477. PMID: 20129970

Gan XL et al. (2010). Association of an interleukin-16 gene polymorphism with the risk and pain phenotype of endometriosis. DNA Cell Biol 29, 663–667. PMID: 20662556

Martino et al. (2010). Application of high-resolution melting to large-scale, high-throughput SNP genotyping: A comparison with the TaqMan method. J Biomol Screen 15, 623–629.  PMID: 20371868

Temesvári M et al. (2011). High-resolution melting curve analysis to establish CYP2C19*2 single nucleotide polymorphism: Comparison with hydrolysis SNP analysis. Mol Cell Probes 25, 130–133. PMID: 21315147

Wu W et al. (2011). Examination of AKAP12 promoter methylation in skin cancer using methylation-sensitive high-resolution melting analysis. Clin Exp Dermatol 36, 381–385. PMID: 21198787

Yu B et al. (2011). Polymorphisms of PXK are associated with autoantibody production, but not disease risk, of systemic lupus erythematosus in Chinese mainland population. Lupus 20, 23–27. PMID: 20829310

 

Related Content

 
Literature
Number Description Download
6004 A Practical Guide to High Resolution Melt Analysis Genotyping, Rev A Click to download
6009 High Resolution Melt Parameter Considerations for Optimal Data Resolution, Rev A Click to download
 
 
LUSOGO2B7 [x-forwarded-proto] = [http] [x-forwarded-port] = [80] [x-forwarded-for] = [3.80.85.76, 10.232.19.69] [accept] = [text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8] [seourl] = [/en-us/applications-technologies/real-time-pcr-doctor-high-resolution-melt-hrm-analysis-experiments] [x-amzn-trace-id] = [Root=1-5c0fe6b4-c118206cf5ba77546240065c] [x-forwarded-server] = [lsds-prod-s.br.aws-livesite.io] [x-forwarded-host] = [www.bio-rad.com] [x-query-string] = [ID=LUSOGO2B7] [host] = [10.232.16.28:1776] [x-request-uri] = [/en-us/applications-technologies/real-time-pcr-doctor-high-resolution-melt-hrm-analysis-experiments] [connection] = [Keep-Alive] [accept-encoding] = [gzip] [user-agent] = [CCBot/2.0 (https://commoncrawl.org/faq/)] AppTech/AppTechDetails pageStyleKey internet/solutions_sub applications-technologies/real-time-pcr-doctor-high-resolution-melt-hrm-analysis-experiments LSR LUSOGO2B7 High Resolution Melt Analysis Experiments Real-Time PCR Doctor | High Resolution Melt (HRM) Analysis Experiments /webroot/web/html/lsr/solutions/technologies/qpcr_real-time_pcr <p>Listed below are some common symptoms in an HRM experiment. Select one of the symptoms to view possible causes and solutions.</p> <p><strong>Related Topics:</strong> <a href="/evportal/destination/solutions?catID=LUSOCICZF">Gene Expression/Quantification Experiments</a> and <a href="/evportal/destination/solutions?catID=LUSOFGDN">Allelic Discrimination Experiments</a>.</p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Symptoms</h3> </div> <div class="contentroundmidwrap"> <div class="contentroundmid gels"> <table class="pd_table" border="0"> <tbody> <tr> <td width="32%"><a href="#gel1"><img src="/webroot/web/images/lsr/solutions/technologies/gene_expression/qPCR_real-time_PCR/technology_detail/gxt26_img7.jpg" border="0" alt="Missed call or clustering" width="120" height="120" /></a> <p class="caption"><a href="#gel1">Missed call or clustering</a></p> </td> <td width="32%"><a href="#gel2"><img src="/webroot/web/images/lsr/solutions/technologies/gene_expression/qPCR_real-time_PCR/technology_detail/gxt26_img8.jpg" border="0" alt="Amplification did not reach plateau" width="120" height="120" /></a> <p class="caption"><a href="#gel2">Amplification did not reach plateau</a></p> </td> <td><a href="#gel3"><img src="/webroot/web/images/lsr/solutions/technologies/gene_expression/qPCR_real-time_PCR/technology_detail/gxt26_img9.jpg" border="0" alt="Poor amplification or failed reaction" width="120" height="120" /></a> <p class="caption"><a href="#gel3">Poor amplification or failed reaction</a></p> </td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p><a name="gel1"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Missed Call or Clustering</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <p>A missed call or clustering may be due to the causes below. Select one of the causes for possible solutions.</p> <ul> <li><a href="#small_thermal">Small Thermal Changes</a></li> <li><a href="#primer_design">Primer Design</a></li> </ul> <p style="text-align: center;"><img src="/webroot/web/images/lsr/solutions/technologies/gene_expression/qPCR_real-time_PCR/technology_detail/gxt264_img1.jpg" alt="" width="483" height="263" /></p> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p><a name="small_thermal"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Small Thermal Changes</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <table class="pd_table pd_gridlines" border="0"> <tbody> <tr> <td colspan="2" valign="top"> <p>Small thermal changes between two sequences can be difficult to differentiate, and these changes can arise from sources such as sequence differences, sample quality, amplicon length, primer design, and PCR reagents.</p> </td> </tr> <tr> <td width="28%" valign="top"><strong>Possible Solutions</strong></td> <td width="72%" valign="top">Use at least one positive control for each target.</td> </tr> <tr> <td>&nbsp;</td> <td valign="top">Decrease the amplicon size. This will increase the difference in signal at a given temperature between two sequences that differed at only one nucleotide position.</td> </tr> <tr> <td>&nbsp;</td> <td valign="top">During analysis, use the cluster with the most distinct visual difference between the various sequence types as the reference cluster. This will help minimize trace overlap.</td> </tr> <tr> <td>&nbsp;</td> <td valign="top">Perform a dilution series of the PCR template to determine whether the effect of the inhibitory agent can be reduced.</td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p style="margin-top: 10px;"><strong> Recommended Products and Links</strong></p> <ul> <li><a href="/en-us/product/supermixes-for-pcr-real-time-pcr/precision-melt-supermix">Precision Melt Supermix</a></li> <li><a href="/en-us/product/precision-melt-analysis-software">Precision Melt Analysis Software</a></li> <li><a href="/en-us/category/dna-isolation">DNA Isolation</a></li> <li><a href="/en-us/category/rna-isolation">RNA Isolation</a></li> <li><a href="/en-us/category/rna-isolation">Aurum&trade; Total RNA Kits</a></li> <li><a href="/en-us/product/purezol-rna-isolation-reagent?pcp_loc=lnav">PureZOL&trade; RNA Isolation Reagent</a></li> </ul> <p><a name="primer_design"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Primer Design</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <table class="pd_table pd_gridlines" border="0"> <tbody> <tr> <td colspan="2" valign="top"> <p>In some cases, the GC content of the primers can affect the melting temperature of your target. Ensuring that the temperature shift will not be affected by the sequence of your primer set will improve calls and clustering.</p> </td> </tr> <tr> <td width="28%" valign="top"><strong>Possible Solutions</strong></td> <td width="72%" valign="top">Design new primers with less GC content.</td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <div class="top"> <p><a href="#helptop">Back to Top</a></p> </div> <p><br /> <a name="gel2"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Amplification Did Not Reach Plateau</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <p>An insufficient amplification where your reactions do not reach plateau may be due to the causes below. Select one of the causes for possible solutions.</p> <ul> <li><a href="#low_quality">Low-Quality DNA</a></li> <li><a href="#long_amplicon">Long Amplicon</a></li> </ul> <p style="text-align: center;"><img src="/webroot/web/images/lsr/solutions/technologies/gene_expression/qPCR_real-time_PCR/technology_detail/gxt264_img2.jpg" alt="" width="500" height="272" /></p> <a name="low_quality"></a></div> </div> <div class="contentroundbot">&nbsp;</div> </div> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Low-Quality DNA</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <table class="pd_table pd_gridlines" border="0"> <tbody> <tr> <td colspan="2" valign="top"> <p>Low-quality DNA may prevent samples from reaching high plateau, which can result in inconclusive high resolution melt (HRM) data. Improving the DNA quality will ensure that the HRM data is not skewed and will be called appropriately.</p> </td> </tr> <tr> <td width="28%" valign="top"><strong>Possible Solutions</strong></td> <td width="72%" valign="top">Increase starting quantity.</td> </tr> <tr> <td>&nbsp;</td> <td valign="top">Add more PCR cycles to protocol.</td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p><a name="long_amplicon"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Long Amplicon</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <table class="pd_table pd_gridlines" border="0"> <tbody> <tr> <td colspan="2" valign="top"> <p>The length of an amplicon can influence the amplification and melt profile if the sequence contains more than one mutation. As a result, the mutation of interest can be difficult to separate from the other sequence variants if primer sets are designed for longer amplicons (&gt; 300 bp).</p> </td> </tr> <tr> <td width="28%" valign="top"><strong>Possible Solutions</strong></td> <td width="72%" valign="top">Use amplicons with a target length &lt;300 bp to improve detection of sequence variants.</td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p style="margin-top: 10px;"><strong> Recommended Products and Links</strong></p> <ul> <li><a href="https://www.bio-rad.com/prd/en/US/adirect/biorad?cmd=catProductDetail&amp;vertical=LSR&amp;country=US&amp;lang=en&amp;productID=172-5112">Precision Melt Supermix</a></li> </ul> <p><a name="gel3"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Poor Amplification or Failed Reaction</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <p>Poor amplification or failed reactions may be due to the causes below. Select one of the causes for possible solutions.</p> <ul> <li><a href="#low_quality_2">Low-Quality DNA</a></li> <li><a href="#inhibitors">Inhibitors</a></li> </ul> <p style="text-align: center;"><img src="/webroot/web/images/lsr/solutions/technologies/gene_expression/qPCR_real-time_PCR/technology_detail/gxt264_img3.jpg" alt="" width="484" height="259" /></p> <a name="low_quality_2"></a></div> </div> <div class="contentroundbot">&nbsp;</div> </div> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Low-Quality DNA</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <table class="pd_table pd_gridlines" border="0"> <tbody> <tr> <td colspan="2" valign="top"> <p>Successful HRM analysis is highly dependent on the quality of the amplicons being compared. Low-quality DNA may produce nonspecific PCR products that can affect the melt profile.</p> </td> </tr> <tr> <td width="28%" valign="top"><strong>Possible Solutions</strong></td> <td width="72%" valign="top">Increase starting concentration.</td> </tr> <tr> <td>&nbsp;</td> <td valign="top">Add more PCR cycles to protocol.</td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p><a name="inhibitors"></a></p> <div class="contentroundwrap"> <div class="contentroundtop"> <h3>Inhibitors</h3> <a href="#helptop">Back to Top</a></div> <div class="contentroundmidwrap"> <div class="contentroundmid"> <table class="pd_table pd_gridlines" border="0"> <tbody> <tr> <td colspan="2" valign="top"> <p>Sometimes inhibitors of PCR are carried over from sample preparation (nucleic acid extraction). Common PCR inhibitors include phenol, detergents, proteases, and residual compounds from source materials, such as animal or plant tissue, body fluids, or soil preparations. Suboptimal reactions containing inhibitors are likely to affect the reactions and thus any postanalysis, such as HRM analysis.</p> </td> </tr> <tr> <td width="28%" valign="top"><strong>Possible Solutions</strong></td> <td width="72%" valign="top">Take extra care with the nucleic acid extraction steps to minimize carryover of PCR inhibitors.</td> </tr> <tr> <td>&nbsp;</td> <td valign="top">Add more PCR cycles to protocol.</td> </tr> </tbody> </table> </div> </div> <div class="contentroundbot">&nbsp;</div> </div> <p style="margin-top: 10px;"><strong> Recommended Products and Links</strong></p> <ul> <li><a href="/en-us/product/supermixes-for-pcr-real-time-pcr/precision-melt-supermix">Precision Melt Supermix</a></li> <li><a href="/en-us/category/dna-isolation">DNA Isolation</a></li> <li><a href="/en-us/category/rna-isolation">RNA Isolation</a></li> <li><a href="/en-us/category/rna-isolation">Aurum&trade; Total RNA Kits</a></li> <li><a href="/en-us/product/purezol-rna-isolation-reagent?pcp_loc=lnav">PureZOL&trade; RNA Isolation Reagent</a></li> </ul> <div class="top"><a href="#helptop">Back to Top</a></div> <br /> <a name="further_reading"></a> <h3>Further Reading</h3> <img style="height: 1px; margin: 5px 0px 15px; width: 620px;" src="http://www.bio-rad.com/webroot/web/images/1x1grey.gif" alt="" /> <p>Castellanos E et al. (2010). Rapid identification and differentiation of <em>Mycobacterium avium</em> subspecies paratuberculosis types by use of real-time PCR and high-resolution melt analysis of the MAP1506 locus. J Clin Microbiol 48, 1474&ndash;1477. PMID: <a href="http://www.ncbi.nlm.nih.gov/pubmed/20129970" target="_blank">20129970</a></p> <p>Gan XL et al. (2010). Association of an interleukin-16 gene polymorphism with the risk and pain phenotype of endometriosis. DNA Cell Biol 29, 663&ndash;667. PMID: <a href="http://www.ncbi.nlm.nih.gov/pubmed/20662556" target="_blank">20662556</a></p> <p>Martino et al. (2010). Application of high-resolution melting to large-scale, high-throughput SNP genotyping: A comparison with the TaqMan method. J Biomol Screen 15, 623&ndash;629.&nbsp; PMID: <a href="http://www.ncbi.nlm.nih.gov/pubmed/20371868" target="_blank">20371868</a></p> <p>Temesv&aacute;ri M et al. (2011). High-resolution melting curve analysis to establish CYP2C19*2 single nucleotide polymorphism: Comparison with hydrolysis SNP analysis. Mol Cell Probes 25, 130&ndash;133. PMID: <a href="http://www.ncbi.nlm.nih.gov/pubmed/21315147" target="_blank">21315147</a></p> <p>Wu W et al. (2011). Examination of AKAP12 promoter methylation in skin cancer using methylation-sensitive high-resolution melting analysis. Clin Exp Dermatol 36, 381&ndash;385. PMID: <a href="http://www.ncbi.nlm.nih.gov/pubmed/21198787" target="_blank">21198787</a></p> <p>Yu B et al. (2011). Polymorphisms of PXK are associated with autoantibody production, but not disease risk, of systemic lupus erythematosus in Chinese mainland population. Lupus 20, 23&ndash;27. PMID: <a href="http://www.ncbi.nlm.nih.gov/pubmed/20829310" target="_blank">20829310</a></p> <div class="top"><a href="#helptop">Back to Top</a></div> 6004 6009 Related Websites <ul> <li><a href="http://hrm.gene-quantification.info/" target="_blank">High Resolution Melt Introduction</a></li> <li><a href="http://hrm-dyes.gene-quantification.info/" target="_blank">High Resolution Melt Dyes</a></li> </ul> Life Science Research/Products/Amplification - PCR/PCR Reagents/Supermixes for PCR and Real-Time PCR/Precision Melt Supermix ->MTS::LNIQ3X15##Life Science Research/Products/Amplification - PCR/Amplification Software/Precision Melt Analysis Software ->MT::df190aee-f184-497e-bfb6-b6dd632c99b5##Life Science Research/Products/Amplification - PCR/Real-Time PCR Detection Systems/CFX384 Touch Real-Time PCR Detection System ->MTS::LJB22YE8Z##Life Science Research/Products/Amplification - PCR/Real-Time PCR Detection Systems/CFX Connect Real Time PCR Detection System ->MTS::LN5TFG15##Life Science Research/Products/Amplification - PCR/Real-Time PCR Detection Systems/CFX96 Touch Real-Time PCR Detection System ->MTS::LJB1YU15## Life Science Research/Solutions/Technologies/qPCR|Real-Time PCR/Assay Design and Optimization ->MTS::LUSO7RIVK##Life Science Research/Solutions/Technologies/qPCR|Real-Time PCR/Reagents ->MTS::LUSO6XKSY##Life Science Research/Solutions/Technologies/qPCR|Real-Time PCR/Data analysis ->MTS::LUSOA9LPT##Life Science Research/Solutions/Technologies/qPCR|Real-Time PCR/High Resolution Melting -HRM- ->MTS::LUSOIH97Q##Life Science Research/Solutions/Technologies/qPCR|Real-Time PCR/MIQE and RDML ->MTS::LUSO8N4EH## Eddie C Real-Time PCR Doctor | High Resolution Melt (HRM) Analysis Experiments 01/06/12 12:47 PM 01/06/21 12:49 AM AE,AI,AL,AM,AR,AT,AU,AZ,BA,BD,BE,BF,BG,BH,BN,BO,BR,BW,CA,CH,CL,CM,CN,CO,CR,CY,CZ,DE,DK,DO,DZ,EC,EE,EG,EH,ER,ES,ET,FI,FM,FO,FR,GA,GE,GF,GH,GP,GR,GT,GU,HK,HN,HR,HT,HU,ID,IE,IL,IN,IS,IT,JM,JO,JP,KE,KH,KR,KW,KZ,LB,LI,LK,LT,LU,LV,MA,MD,MG,MK,ML,MO,MQ,MS,MT,MU,MX,MY,NG,NI,NL,NO,NP,NZ,OM,PA,PE,PF,PG,PH,PK,PL,PR,PS,PT,PW,PY,QA,RO,RS,RU,SA,SB,SE,SG,SI,SK,SN,ST,SV,TG,TH,TN,TO,TR,TT,TW,TZ,UA,UG,UK,US,UY,UZ,VA,VE,VU,XK,YE,ZA en LSR /LSR/Technologies/qPCR_Real_Time_PCR N 0
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