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DAZL is a master translational regulator of murine spermatogenesis.


ABSTRACT: Expression of DAZ-like (DAZL) is a hallmark of vertebrate germ cells, and is essential for embryonic germ cell development and differentiation, yet the gametogenic function of DAZL has not been fully characterized and most of its in vivo direct targets remain unknown. We showed that postnatal stage-specific deletion of Dazl in mouse germ cells did not affect female fertility, but caused complete male sterility with gradual loss of spermatogonial stem cells, meiotic arrest and spermatid arrest. Using the genome-wide high-throughput sequencing of RNAs isolated by cross-linking immunoprecipitation and mass spectrometry approach, we found that DAZL bound to a large number of testicular mRNA transcripts (at least 3008) at the 3'-untranslated region and interacted with translation proteins including poly(A) binding protein. In the absence of DAZL, polysome-associated target transcripts, but not their total transcripts, were significantly decreased, resulting in a drastic reduction of an array of spermatogenic proteins and thus developmental arrest. Thus, DAZL is a master translational regulator essential for spermatogenesis.

SUBMITTER: Li H 

PROVIDER: S-EPMC6660020 | biostudies-literature | 2019 May

REPOSITORIES: biostudies-literature

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DAZL is a master translational regulator of murine spermatogenesis.

Li Haixin H   Liang Zhuqing Z   Yang Jian J   Wang Dan D   Wang Hanben H   Zhu Mengyi M   Geng Baobao B   Xu Eugene Yujun EY  

National science review 20181228 3


Expression of <i>DAZ-like</i> (<i>DAZL</i>) is a hallmark of vertebrate germ cells, and is essential for embryonic germ cell development and differentiation, yet the gametogenic function of <i>DAZL</i> has not been fully characterized and most of its <i>in vivo</i> direct targets remain unknown. We showed that postnatal stage-specific deletion of <i>Dazl</i> in mouse germ cells did not affect female fertility, but caused complete male sterility with gradual loss of spermatogonial stem cells, mei  ...[more]

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