A Family of Human Y Chromosomes Has Dispersed Throughout Northern Eurasia Despite a 1.8-Mb Deletion in the Azoospermia Factor C Region

Overview

Journal Genomics

Specialty Genetics

Date 2004 Jun 5

PMID 15177557

Citations 71

Authors

Sjoerd Repping

Saskia K M van Daalen

Cindy M Korver

Laura G Brown

Janet D Marszalek

Judith Gianotten

Robert D Oates

Sherman Silber

Fulco van der Veen

David C Page

Steve Rozen

Affiliations

Soon will be listed here.

Abstract

The human Y chromosome is replete with amplicons-very large, nearly identical repeats-which render it susceptible to interstitial deletions that often cause spermatogenic failure. Here we describe a recurrent, 1.8-Mb deletion that removes half of the azoospermia factor c (AZFc) region, including 12 members of eight testis-specific gene families. We show that this "b2/b3" deletion arose at least four times in human history-likely on inverted variants of the AZFc region that we find exist as common polymorphisms. We observed the b2/b3 deletion primarily in one family of closely related Y chromosomes-branch N in the Y-chromosome genealogy-in which all chromosomes carried the deletion. This branch is known to be widely distributed in northern Eurasia, accounts for the majority of Y chromosomes in some populations, and appears to be several thousand years old. The population-genetic success of the b2/b3 deletion is surprising, (i) because it removes half of AZFc and (ii) because the gr/gr deletion, which removes a similar set of testis-specific genes, predisposes to spermatogenic failure. Our present findings suggest either that the b2/b3 deletion has at most a modest effect on fitness or that, within branch N, its effect has been counterbalanced by another genetic, possibly Y-linked, factor.

Citing Articles

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The Trinh S, Nguyen N, Le H, Thi My Pham H, Tien Trieu S, Tran N Appl Clin Genet. 2023; 16:155-164.

PMID: 37663123 PMC: 10473397. DOI: 10.2147/TACG.S420030.

The complete sequence of a human Y chromosome.

Rhie A, Nurk S, Cechova M, Hoyt S, Taylor D, Altemose N Nature. 2023; 621(7978):344-354.

PMID: 37612512 PMC: 10752217. DOI: 10.1038/s41586-023-06457-y.

Characterizing the evolution and phenotypic impact of ampliconic Y chromosome regions.

Lucotte E, Gudmundsdottir V, Jensen J, Skov L, Macia M, Almstrup K Nat Commun. 2023; 14(1):3990.

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Apparent Homozygosity for a gr/gr AZFc Deletion in A 47,XYY Man with Oligozoospermia and Secondary Infertility.

Bunyan D, Saran M, Hobbs J, Anderson D, Duncan-Flavell P, Howarth R J Reprod Infertil. 2022; 23(4):296-302.

PMID: 36452190 PMC: 9674462. DOI: 10.18502/jri.v23i4.10816.

Microdeletions and vertical transmission of the Y-chromosome azoospermia factor region.

Deng C, Zhang Z, Tang W, Jiang H Asian J Androl. 2022; 25(1):5-12.

PMID: 35259786 PMC: 9933971. DOI: 10.4103/aja2021130.