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This study provides reliable Y-chromosome Short Tandem Repeat (Y-STR) mutation rate estimates using a genealogy approach. The findings are crucial for genetic genealogy and forensic applications, improving Time of Most Recent Common Ancestor (TMRCA) calculations.

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Area of Science:

  • Population genomics
  • Human population genetics
  • Forensic genetics

Background:

  • Y-chromosome Short Tandem Repeats (Y-STRs) are vital for population genomics, forensics, and genetic genealogy.
  • Accurate Y-STR mutation rates are essential for determining patrilineal relatedness and Time of Most Recent Common Ancestors (TMRCAs).

Purpose of the Study:

  • To generate new Y-STR mutation rate estimates using a deep-rooting paternal genealogy approach.
  • To assess the impact of mutations on TMRCAs in forensic and genetic genealogy contexts.
  • To evaluate a Bayesian procedure for comparing observed and expected TMRCAs.

Main Methods:

  • Typing 47 Y-STR markers in 135 individuals from 66 paternal genealogies in Northern Italy.
  • Utilizing a genealogy-based approach to estimate mutation rates.
  • Applying a Bayesian procedure (Walsh, 2001) to compare observed and expected TMRCAs, including the Infinite Alleles Model (IAM).

Main Results:

  • The genealogy approach effectively yields reliable Y-STR mutation rate estimates, even with limited samples.
  • Multi-step mutations and backmutations have a negligible impact on typical forensic and genetic genealogy timescales.
  • A significant association was found between the number of mutations within genealogies and observed TMRCAs.
  • The Bayesian procedure demonstrated good performance (up to 96.72%) for TMRCA comparison, particularly with the IAM.

Conclusions:

  • The genealogy method is a robust strategy for estimating Y-STR mutation rates.
  • Established Y-STR mutation rates are reliable for forensic and genetic genealogy applications.
  • The Bayesian TMRCA calculation method shows high accuracy, especially when using the Infinite Alleles Model.