Carl Wittwer
Carl Wittwer
Professor of Pathology, University of Utah
Verified email at - Homepage
Cited by
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The MIQE Guidelines: Minimum Information for Publication of Quantitative Real-Time PCR Experiments
SA Bustin, V Benes, JA Garson, J Hellemans, J Huggett, M Kubista, ...
Clinical chemistry 55 (4), 611-622, 2009
Product differentiation by analysis of DNA melting curves during the polymerase chain reaction
KM Ririe, RP Rasmussen, CT Wittwer
Analytical biochemistry 245 (2), 154-160, 1997
Continuous fluorescence monitoring of rapid cycle DNA amplification
CT Wittwer, MG Herrmann, AA Moss, RP Rasmussen
Biotechniques 22 (1), 130-138, 1997
High-resolution genotyping by amplicon melting analysis using LCGreen
CT Wittwer, GH Reed, CN Gundry, JG Vandersteen, RJ Pryor
Clinical chemistry 49 (6), 853-860, 2003
Quantification of low-copy transcripts by continuous SYBR Green I monitoring during amplification.
TB Morrison, JJ Weis, CT Wittwer
Biotechniques 24 (6), 954-8, 960, 962, 1998
The LightCyclerTM: A Microvolume Multisample Fluorimeter with Rapid Temperature Control
CT Wittwer, KM Ririe, RV Andrew, DA David, RA Gundry, UJ Balis
Biotechniques 22 (1), 176-181, 1997
Genotyping of single-nucleotide polymorphisms by high-resolution melting of small amplicons
M Liew, R Pryor, R Palais, C Meadows, M Erali, E Lyon, C Wittwer
Clinical chemistry 50 (7), 1156-1164, 2004
Flow cytometry: principles and clinical applications in hematology
M Brown, C Wittwer
Clinical chemistry 46 (8), 1221-1229, 2000
The Digital MIQE Guidelines: Minimum Information for Publication of Quantitative Digital PCR Experiments
JF Huggett, CA Foy, V Benes, K Emslie, JA Garson, R Haynes, ...
Clinical chemistry 59 (6), 892-902, 2013
High-resolution DNA melting analysis for simple and efficient molecular diagnostics
GH Reed, JO Kent, CT Wittwer
Future Medicine Ltd 8 (6), 597-608, 2007
Sensitivity and specificity of single-nucleotide polymorphism scanning by high-resolution melting analysis
GH Reed, CT Wittwer
Clinical chemistry 50 (10), 1748-1754, 2004
Monitoring amplification of DNA during PCR
CT Wittwer, KM Ririe, RP Rasmussen
US Patent 6,174,670, 2001
High‐resolution DNA melting analysis: advancements and limitations
CT Wittwer
Human mutation 30 (6), 857-859, 2009
Amplicon melting analysis with labeled primers: a closed-tube method for differentiating homozygotes and heterozygotes
CN Gundry, JG Vandersteen, GH Reed, RJ Pryor, J Chen, CT Wittwer
Clinical chemistry 49 (3), 396-406, 2003
Guidelines for the diagnosis and monitoring of paroxysmal nocturnal hemoglobinuria and related disorders by flow cytometry
MJ Borowitz, FE Craig, JA DiGiuseppe, AJ Illingworth, W Rosse, ...
Cytometry Part B: Clinical Cytometry 78 (4), 211-230, 2010
Real-time multiplex PCR assays
CT Wittwer, MG Herrmann, CN Gundry, KSJ Elenitoba-Johnson
Methods 25 (4), 430-442, 2001
Real-time fluorescence genotyping of factor V Leiden during rapid-cycle PCR
MJ Lay, CT Wittwer
Clinical Chemistry 43 (12), 2262-2267, 1997
Real-time PCR technology for cancer diagnostics
PS Bernard, CT Wittwer
Clinical chemistry 48 (8), 1178-1185, 2002
Rapid cycle DNA amplification: time and temperature optimization.
CT Wittwer, DJ Garling
Biotechniques 10 (1), 76-83, 1991
Amplicon DNA melting analysis for mutation scanning and genotyping: cross-platform comparison of instruments and dyes
MG Herrmann, JD Durtschi, LK Bromley, CT Wittwer, KV Voelkerding
Clinical chemistry 52 (3), 494-503, 2006
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