|Title:||Novel identification of biofluids using a multiplex methylation-specific PCR combined with single-base extension system||Authors:||Lin, Yu-Chih
Lee, James Chun-I
Tzen, Jason Tze-Cheng
|Keywords:||DNA methylation;Body fluids;Mixtures;Biofluid identification;Methylation-specific PCR (MSP);Single-base-extension (SBE)||Issue Date:||2016||Start page/Pages:||128-138||Source:||Forensic Science Medicine and Pathology||Abstract:||
Knowledge of the composition of complex body fluid mixtures may aid forensic investigations greatly. However, many of the traditional tests are presumptive in nature and can lead to ambiguous results. The aim of this study is to establish a reliable method to identify various biofluids via analysis of their DNA methylation profiles.
A total of eight biofluid-specific methylated markers for saliva, venous blood, vaginal fluids, and semen were isolated from the open database of Infinium HumanMethylation450 BeadChip. These biofluid-specific markers, a control marker to confirm bisulfite conversion, and a gender marker, were combined into a 10-plex methylation-specific PCR single-base-extension (MSP-SBE) system.
Analysis of 65 DNA samples isolated from venous blood, semen, vaginal fluid, saliva, and menstrual blood that had been treated with bisulfite, resulted in all eight markers detecting the body fluid to which they were designed. Unambiguous body fluid identification occurred from both single sources of body fluids and complex mixtures. A threshold was devised for each marker to minimize the chance of a false inclusion. The efficacy of the assay and application to forensic practice was demonstrated using five non-probative samples from real alleged sexual assault cases. The system unambiguously determined the biofluid types for the non-probative forensic samples that previously resulted in inconclusive or conflicting results using traditional tests.
The results demonstrated the 10-plex MSP-SBE system established in this study is both sensitive and specific when applied to body fluid identification and can be readily adopted into forensic practice.
|Appears in Collections:||法醫學科所|
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