The use of proteomic genetic information for human identification would be useful in cases where DNA is too degraded for analysis, or when there are substantial numbers of physically unidentifiable human remains. The current project had the following major goals: 1) to identify informative single amino acid polymorphisms (SAAPs) in human muscle and bone proteins that can be used for individual identification, confirm these variants by genetic analysis, and to determine the maximum population size that they can meaningfully discriminate; 2) to evaluate taphonomic effects on protein degradation over time in different seasons; and 3) to assay three body areas for possible variations in protein expression. The study's findings indicate that individual identifications are possible through the detection of SAAPs in muscle; critical to this process is the establishment of custom variant databases. It also shows that improvements in the ability to identify SAAPs and consensus sequences by using SWATH data acquisition would likely improve SAAP and wildtype identifications, consequently increasing the discriminatory power of the assay. Project data also demonstrate that the use of protein quantitation, together with the total body score method, may increase the accuracy of determining the postmortem interval. This report describes the research design and methods, as well as data analysis. 1 table
Downloads
Similar Publications
- Criticality of Spray Solvent Choice on the Performance of Next Generation, Spray-Based Ambient Mass Spectrometric Ionization Sources: A Case Study Based on Synthetic Cannabinoid Forensic Evidence
- Large-scale Selection of Highly Informative Microhaplotypes for Ancestry Inference and Population Specific Informativeness
- Atmospheric Chemistry of Chloroprene Initiated by OH Radicals: Combined Ab Initio/DFT Calculations and Kinetics Analysis