Your search keyword '"Human Y chromosome"' showing total 3 results

1. Differences in urbanization degree and consequences on the diversity of conventional vs. rapidly mutating Y-STRs in five municipalities from a small region of the Tyrolean Alps in Austria.

Author

Niederstätter, Harald, Berger, Burkhard, Kayser, Manfred, and Parson, Walther

Subjects

Y chromosome, SHORT tandem repeat analysis, DNA fingerprinting, GENETIC mutation, HAPLOTYPES

Abstract

In this study we set out to test at a micro-geographic scale for the potential effects of differences in urbanization degree on Y-chromosomal diversity and the paternal lineage differentiation of “conventional” and rapidly-mutating (RM) Y-STR markers. To avoid systematic underrepresentation of common lineages, 551 male samples were collected under a sampling regime allowing for the inclusion of paternal relatives. All participants came from a small, topographically highly structured, yet culturally homogeneous settlement area in the Tyrolean Alps of Austria, a region that is characterized by a longstanding coexistence of communities differing considerably in size and connection. The study participants reported provenance in one of the three rural villages Alpbach, Brandenberg, and Wildschönau – all being separated by topographical barriers from each other – or in one of the two more urban-like and better connected municipalities Kitzbühel and St. Johann in Tirol. When compared with the sample pools from the two larger communities, the three small villages showed distinctly higher rates of self-reported patrilocality since the paternal grandfather (85–95% vs. ∼42%), and featured evidence for a considerably higher proportion of close and cryptic paternal relationships among the study participants. We observed marked differences in the Y-SNP haplogroup frequency spectra and statistically significant Y-STR-based F ST distances among the municipality samples, suggesting population sub-structuring along municipality borders. While for the two larger settlements a widely used “core” set of 17 conventional Y-STRs (Yfiler) provided reasonably high lineage resolution ( Ĥ : 0.99515 ± 0.00256, 0.99739 ± 0.00224), a markedly reduced haplotype diversity was seen in samples from the rural villages ( Ĥ : 0.96126 ± 0.00701–0.98515 ± 0.00278). This difference largely diminished when instead using a set of 13 RM Y-STRs ( Ĥ : 0.99180 ± 0.00380–0.99922 ± 0.00187, for all groups). Most notably, in the Alpbach sample the number of different haplotypes rose from 42 (Yfiler) to 99 (RM Y-STRs) and the proportion of matching haplotypes dropped from nearly 4% (Yfiler) to about 0.4% (RM Y-STRs) of the pairwise comparisons. Consistent results were obtained with a reduced version of the dataset, being devoid of inferred close male relatives up to the degree of first cousins. Finally, consequences potentially arising from a gain in lineage-resolution for population reference-sample size requirements will be addressed briefly. [ABSTRACT FROM AUTHOR]

Published

2016

2. A comparison of Y-chromosomal lineage dating using either resequencing or Y-SNP plus Y-STR genotyping.

Author

Wei, Wei, Ayub, Qasim, Xue, Yali, and Tyler-Smith, Chris

Subjects

Y chromosome, SINGLE nucleotide polymorphisms, SHORT tandem repeat analysis, GENOTYPE-environment interaction, PHYLOGENY, GENETIC mutation, GENETIC markers

Abstract

Abstract: We have compared phylogenies and time estimates for Y-chromosomal lineages based on resequencing ∼9Mb of DNA and applying the program GENETREE to similar analyses based on the more standard approach of genotyping 26 Y-SNPs plus 21 Y-STRs and applying the programs NETWORK and BATWING. We find that deep phylogenetic structure is not adequately reconstructed after Y-SNP plus Y-STR genotyping, and that times estimated using observed Y-STR mutation rates are several-fold too recent. In contrast, an evolutionary mutation rate gives times that are more similar to the resequencing data. In principle, systematic comparisons of this kind can in future studies be used to identify the combinations of Y-SNP and Y-STR markers, and time estimation methodologies, that correspond best to resequencing data. [Copyright &y& Elsevier]

Published

2013

3. A comparison of Y-chromosomal lineage dating using either resequencing or Y-SNP plus Y-STR genotyping

Author

Wei Wei, Chris Tyler-Smith, Qasim Ayub, and Yali Xue

Subjects

Male, Mutation rate, Genotype, Lineage (evolution), Computational biology, Biology, Polymorphism, Single Nucleotide, Article, Pathology and Forensic Medicine, 03 medical and health sciences, Human Y chromosome, Phylogenetics, Genetics, Humans, Y-STR, Genotyping, Y-SNP, Phylogeny, 030304 developmental biology, Male history, 0303 health sciences, Chromosomes, Human, Y, Phylogenetic tree, 030305 genetics & heredity, Time estimation, Mutation (genetic algorithm), Mutation, BATWING, Networks, Microsatellite Repeats

Abstract

We have compared phylogenies and time estimates for Y-chromosomal lineages based on resequencing ∼9Mb of DNA and applying the program GENETREE to similar analyses based on the more standard approach of genotyping 26 Y-SNPs plus 21 Y-STRs and applying the programs NETWORK and BATWING. We find that deep phylogenetic structure is not adequately reconstructed after Y-SNP plus Y-STR genotyping, and that times estimated using observed Y-STR mutation rates are several-fold too recent. In contrast, an evolutionary mutation rate gives times that are more similar to the resequencing data. In principle, systematic comparisons of this kind can in future studies be used to identify the combinations of Y-SNP and Y-STR markers, and time estimation methodologies, that correspond best to resequencing data.