| Literature DB >> 32579758 |
Arwin Ralf1, Delano Lubach1, Nefeli Kousouri1, Christian Winkler2, Iris Schulz2, Lutz Roewer3, Josephine Purps3, Rüdiger Lessig4, Pawel Krajewski5, Rafal Ploski5, Tadeusz Dobosz6, Lotte Henke2, Jürgen Henke2, Maarten H D Larmuseau7,8, Manfred Kayser1.
Abstract
Short tandem repeat polymorphisms on the male-specific part of the human Y-chromosome (Y-STRs) are valuable tools in many areas of human genetics. Although their paternal inheritance and moderate mutation rate (~10-3 mutations per marker per meiosis) allow detecting paternal relationships, they typically fail to separate male relatives. Previously, we identified 13 Y-STR markers with untypically high mutation rates (>10-2 ), termed rapidly mutating (RM) Y-STRs, and showed that they improved male relative differentiation over standard Y-STRs. By applying a newly developed in silico search approach to the Y-chromosome reference sequence, we identified 27 novel RM Y-STR candidates. Genotyping them in 1,616 DNA-confirmed father-son pairs for mutation rate estimation empirically highlighted 12 novel RM Y-STRs. Their capacity to differentiate males related by 1, 2, and 3 meioses was 27%, 47%, and 61%, respectively, while for all 25 currently known RM Y-STRs, it was 44%, 69%, and 83%. Of the 647 Y-STR mutations observed in total, almost all were single repeat changes, repeat gains, and losses were well balanced; allele length and fathers' age were positively correlated with mutation rate. We expect these new RM Y-STRs, together with the previously known ones, to significantly improving male relative differentiation in future human genetic applications.Entities:
Keywords: Y-STRs; forensic genetics; genetic genealogy; genetic identification; male relative differentiation; mutation rates; rapidly mutating Y-STRs
Year: 2020 PMID: 32579758 DOI: 10.1002/humu.24068
Source DB: PubMed Journal: Hum Mutat ISSN: 1059-7794 Impact factor: 4.878