DNA fingerprinting
Comprehensive Analysis of Recently Integrated Human Ta L1 Elements
Paraphyly in Hawaiian Hybrid Blowfly Populations and the Evolutionary History of Anthropophilic Species
Improvement of DNA Testing Capabilities of the Alaska Crime Laboratory, Final Report
West Virginia State Police Enhances STR Capabilities, Final Report
Clearing the DNA Logjam
Rapid and High-Throughput Forensic Short Tandem Repeat Typing Using a 96-Lane Microfabricated Capillary Array Electrophoresis Microdevice
Utility of Whole Genome Amplification for Typing Compromised Forensic Samples
Unjamming the Backlog
Y-STR Concordance Study Between Y-Plex5, Y-Plex6, Y-Plex12, PowerplexY, Y-Filer, MPI, and MPII
Forensic Application of the Affymetrix Human Mitochondrial Resequencing Array
Ultra-High Discrimination Y Chromosome Short Tandem Repeat Multiplex DNA Typing System
Duplex Real-Time qPCR Assay for the Quantification of Human Nuclear and Mitochondrial DNA in Forensic Samples: Implications for Quantifying DNA in Degraded Samples
Quantitative Real-Time PCR (qPCR) Assay for Human-Dog-Cat Species Identification and Nuclear DNA Quantification
Analysis of Artificially Degraded DNA Using STRs and SNPs-Results of a Collaborative European (EDNAP) Exercise
Robust STR Calling From High-Throughput Sequencing Technologies
Advancing the Statistical Interpretation of Forensic DNA Data Samples
Wrongful Convictions: The Latest Scientific Research & Implications for Law Enforcement
What does science tell us about case factors that can lead to a wrongful conviction? Dr. Jon Gould of American University will discuss the findings of the first large-scale empirical study that has identified ten statistically significant factors that distinguish a wrongful conviction from a "near miss." (A "near miss" is a case in which an innocent defendant was acquitted or had charges dismissed before trial). Following Dr. Gould's presentation, Mr. John R.
Review the YouTube Terms of Service and the Google Privacy Policy