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Margaret C Kline

Showing results (1-10 of 30) with videos related to

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Analytical Chemistry|March 29, 2017
Evaluating Droplet Digital Polymerase Chain Reaction for the Quantification of Human Genomic DNA: Lifting the Traceability FogMargaret C Kline, David L Duewer
Analytical and Bioanalytical Chemistry|June 1, 2020
Evaluating digital PCR for the quantification of human nuclear DNA: determining target strandednessMargaret C Kline, David L Duewer
Forensic Science International. Genetics|August 14, 2018
NIST interlaboratory studies involving DNA mixtures (MIX05 and MIX13): Variation observed and lessons learnedJohn M Butler, Margaret C Kline, Michael D Coble
Analytical and Bioanalytical Chemistry|October 7, 2015
Real-time cdPCR opens a window into events occurring in the first few PCR amplification cyclesDavid L Duewer, Margaret C Kline, Erica L Romsos
Analytical Chemistry|January 12, 2016
Evaluating Digital PCR for the Quantification of Human Genomic DNA: Accessible Amplifiable TargetsMargaret C Kline, Erica L Romsos, David L Duewer
Analytical and Bioanalytical Chemistry|March 21, 2018
Evaluating droplet digital PCR for the quantification of human genomic DNA: converting copies per nanoliter to nanograms nuclear DNA per microliterDavid L Duewer, Margaret C Kline, Erica L Romsos, et al.
Forensic Science International. Genetics|October 12, 2010
STR sequence analysis for characterizing normal, variant, and null allelesMargaret C Kline, Carolyn R Hill, Amy E Decker, et al.
Analytical Chemistry|August 16, 2003
NIST Mixed Stain Study 3: DNA quantitation accuracy and its influence on short tandem repeat multiplex signal intensityMargaret C Kline, David L Duewer, Janette W Redman, et al.
Analytical Chemistry|December 2, 2004
NIST mixed stain study 3: signal intensity balance in commercial short tandem repeat multiplexesDavid L Duewer, Margaret C Kline, Janette W Redman, et al.
Journal of Forensic Sciences|June 4, 2005
Results from the NIST 2004 DNA Quantitation StudyMargaret C Kline, David L Duewer, Janette W Redman, et al.
Pageof 3

Showing results (1-10 of 30) with videos related to

Sort By:
Pageof 3
Analytical Chemistry|March 29, 2017
Evaluating Droplet Digital Polymerase Chain Reaction for the Quantification of Human Genomic DNA: Lifting the Traceability FogMargaret C Kline, David L Duewer
Analytical and Bioanalytical Chemistry|June 1, 2020
Evaluating digital PCR for the quantification of human nuclear DNA: determining target strandednessMargaret C Kline, David L Duewer
Forensic Science International. Genetics|August 14, 2018
NIST interlaboratory studies involving DNA mixtures (MIX05 and MIX13): Variation observed and lessons learnedJohn M Butler, Margaret C Kline, Michael D Coble
Analytical and Bioanalytical Chemistry|October 7, 2015
Real-time cdPCR opens a window into events occurring in the first few PCR amplification cyclesDavid L Duewer, Margaret C Kline, Erica L Romsos
Analytical Chemistry|January 12, 2016
Evaluating Digital PCR for the Quantification of Human Genomic DNA: Accessible Amplifiable TargetsMargaret C Kline, Erica L Romsos, David L Duewer
Analytical and Bioanalytical Chemistry|March 21, 2018
Evaluating droplet digital PCR for the quantification of human genomic DNA: converting copies per nanoliter to nanograms nuclear DNA per microliterDavid L Duewer, Margaret C Kline, Erica L Romsos, et al.
Forensic Science International. Genetics|October 12, 2010
STR sequence analysis for characterizing normal, variant, and null allelesMargaret C Kline, Carolyn R Hill, Amy E Decker, et al.
Analytical Chemistry|August 16, 2003
NIST Mixed Stain Study 3: DNA quantitation accuracy and its influence on short tandem repeat multiplex signal intensityMargaret C Kline, David L Duewer, Janette W Redman, et al.
Analytical Chemistry|December 2, 2004
NIST mixed stain study 3: signal intensity balance in commercial short tandem repeat multiplexesDavid L Duewer, Margaret C Kline, Janette W Redman, et al.
Journal of Forensic Sciences|June 4, 2005
Results from the NIST 2004 DNA Quantitation StudyMargaret C Kline, David L Duewer, Janette W Redman, et al.
Pageof 3