What we do
Top Software
Resources
|
| Authors |
Year |
Title / Download |
| Zhou, Toydemir, Palais and Wittwer |
2017 |
Analyzing Copy Number Variation Inheritance with dNTP Limited PCR & High-Resolution Melting (AMP) |
| Pryor, Zhou, Palais, Ardom and Wittwer |
2015 |
Rapid Identity DNA Matching using a 2-Phase PCR System Coupled with High Resolution Melting (AMP) |
| Rejali, N. and Wittwer, C.T. |
2015 |
The Influence of Mismatches on Polymerase Activity (AMP) |
| Millington, Kent and Wittwer |
2012 |
Deterministic Design and Implementation of Single Nucleotide Variant Genotyping by High Resolution Melting |
| Zhou, Smith, Anderson and Wittwer |
2010 |
Rare Allele Enrichment by Snapback Primer |
| Erali, Pattison, Augustine, Hill and Wittwer |
2011 |
Rapid Gene Scanning in the Clinical Laboratory Using High Resolution Melting Analysis |
| Seipp, Herrmann and Wittwer |
2009 |
Automated DNA Extraction, Quantification, Dilution and PCR Preparation for High-Resolution Melting Analysis |
| Zhou, Smith and Wittwer |
2009 |
Rare Allele Enrichment by ARMS Combined with Probe Based Genotyping Techniques |
| Zhou, Peng, Taylor, Eccles and Wittwer |
2008 |
Genome Matching of HLA by High-resolution Melting Analysis between Siblings |
| Liew, Voelkerding and Wittwer |
2008 |
Gene Scanning of the Interleukin 2 receptor Gamma (IL2RG) By High Resolution Melting |
| Palais, Mitchell, Meadows, Voelkerding, Wayman, Lyon and Wittwer |
2008 |
Automation of a Genetic Assay With Real and Virtual Instruments |
| Pryor, R. and Wittwer, C.T. |
2008 |
Homogeneous Single-Tube Triplex Genotyping for Warfarin Dosing in Less Than 30 Minutes |
| Reed, Wang and Wittwer |
2007 |
Detection limits for allele fractions using high-resolution melting amplicon melting |
| Pryor, R. and Wittwer, C.T. |
2006 |
Multiplex Genotyping by Small Amplicon Melting and Unlabeled Probes Application to HFE genotyping |
| Pryor, Liew, Palais and Wittwer |
2004 |
SNP Genotyping Without Probes by High Resolution Melting of Small Amplicons |
| Palais, Liew, Pryor, Reed, Zhou and Wittwer |
200? |
Spiking to Enhance Genotyping by High-Resolution Melting Without Probes |
| Authors |
Year |
Title / Download |
| Pryor, R et al. |
2017 |
High Speed Melting Analysis: The Effect of Melting Rate on Microfluidic Genotyping (AMP) |
| Samuel, Jafek, Trauba, Carney, Pryor, Gale, Wittwer and Aston |
2016 |
40 Cycle PCR Using Human Genomic DNA in Less Than 1 Minute on a Microfluidice Chip |
| Carney, K and Wittwer, CT. |
2015 |
High Resolution Steady-State (Spatial) DNA Melting (AMP) |
| Li, M. |
2013 |
Sensitivity and Specificity of High Resolution Melting for Detection of Heterozygous and Homozygous Variants Across Nine Instruments (AMP) |
| Pryor, R. |
2013 |
Extreme PCR Amplification on an In-line PCR Microfluidic System (AMP) |
| Sanford, L |
2012 |
Monitoring Temperature by Fluorescence during PCR and Melting Analysis (AMP) |
| Carney, K. |
2012 |
Hyperfine Resolution of Fluorescent DNA Melting (AMP) |
| Mason, Boles, Pryor, Poulson, Wittwer, Inoue and Knight |
2006 |
Detection of Multiple CFTR Mutations Using High Resolution Thermal Melt Analysis on a Microfluidic Chip |
| Elinitoba-Johnson, K. |
2006 |
Elinitoba-Johnson, K. (2006) Plastic vs Glass capillaries for rapic cycle PCR |
| Elinitoba-Johnson, K. |
2006 |
The effect of heating rate on DNA Duplex Melting : Implications for Mutation Scanning and Real-Time PCR |
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