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HSFY 基因和人类 Y 染色体 AZFb 间隔中的 P4 回文结构对于精母细胞成熟并非必需。

HSFY genes and the P4 palindrome in the AZFb interval of the human Y chromosome are not required for spermatocyte maturation.

机构信息

Inserm UMR_S 910, Faculté de Médecine de Marseille, Université de la Méditerranée, Marseille 13385, France.

出版信息

Hum Reprod. 2012 Feb;27(2):615-24. doi: 10.1093/humrep/der421. Epub 2011 Dec 8.

DOI:10.1093/humrep/der421
PMID:22158087
Abstract

BACKGROUND

Recurrent AZFb deletions on the human Y chromosome are associated with an absence of ejaculated spermatozoa consequent to a meiotic maturation arrest that prevents the progression of germ cells to haploid stages. The extreme rarity of partial deletions has hampered the identification of the AZFb genes required for normal meiotic stages. The critical interval, refined by two overlapping deletions associated with full spermatogenesis (AZFc and b1/b3), measures over 4 Mb and contains 13 coding genes: CDY2, XKRY, HSFY1, HSFY2, CYORF15A, CYORF15B, KDM5D, EIF1AY, RPS4Y2 and four copies of RBMY.

METHODS AND RESULTS

We screened 1186 men from infertile couples for Y chromosome deletions, and identified three unrelated oligozoospermic men and one azoospermic man who carry an identical 768 kb deletion resulting in loss of the entire P4 palindrome, including both HSFY genes, the only coding genes within the deletion interval. This 768 kb deletion was not found in 1179 control men. The deletion breakpoints share only 4 bp of nucleotide identity, revealing that the deletions are not recurrent, but are descendants of a founding deletion. Confirming this, we find that all four men carry a Y chromosome of the same highly defined haplogroup (R1b1b1a1b) (incidence 30% in Southern France), although further haplotype analyses showed that they were not closely related.

CONCLUSIONS

Although the HSFY deletion is restricted to our infertile group, it has been transmitted naturally over many generations, indicating that HSFY genes make only a slight contribution to male fertility. Importantly, our study formally excludes HSFY genes as the AZFb factor required for progression through meiosis.

摘要

背景

人类 Y 染色体上的 AZFb 缺失会导致精子缺失,这是由于减数分裂成熟阻滞,阻止了生殖细胞向单倍体阶段的进展。部分缺失的极端罕见性阻碍了鉴定正常减数分裂阶段所需的 AZFb 基因。通过与完全精子发生相关的两个重叠缺失(AZFc 和 b1/b3),精确定位到关键区间,该区间超过 4 Mb,包含 13 个编码基因:CDY2、XKRY、HSFY1、HSFY2、CYORF15A、CYORF15B、KDM5D、EIF1AY、RPS4Y2 和四个 RBMY 拷贝。

方法和结果

我们对来自不育夫妇的 1186 名男性进行了 Y 染色体缺失筛查,发现了 3 名寡精子症男性和 1 名无精子症男性,他们携带相同的 768 kb 缺失,导致整个 P4 回文缺失,包括两个 HSFY 基因,这是缺失区间内唯一的编码基因。该 768 kb 缺失未在 1179 名对照男性中发现。缺失断点仅共享 4 bp 的核苷酸同一性,表明这些缺失不是反复发生的,而是源于一个起始缺失。证实了这一点,我们发现这 4 名男性携带相同的高度定义的单倍群(R1b1b1a1b)的 Y 染色体(在法国南部的发生率为 30%),尽管进一步的单倍型分析表明他们之间没有密切的关系。

结论

尽管 HSFY 缺失仅限于我们的不育组,但它已经在许多代中自然传播,表明 HSFY 基因对男性生育力的贡献很小。重要的是,我们的研究正式排除了 HSFY 基因作为通过减数分裂进展所需的 AZFb 因子。

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