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rbpms2 在 Balbiani 体结构和卵巢命运中发挥作用。

rbpms2 functions in Balbiani body architecture and ovary fate.

机构信息

Department of Developmental and Molecular Biology; Albert Einstein College of Medicine, Bronx, New York, United States of America.

Department of Cell, Developmental and Regenerative Biology Icahn School of Medicine at Mount Sinai, New York, New York, United States of America.

出版信息

PLoS Genet. 2018 Jul 5;14(7):e1007489. doi: 10.1371/journal.pgen.1007489. eCollection 2018 Jul.

DOI:10.1371/journal.pgen.1007489
PMID:29975683
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6049948/
Abstract

The most prominent developmental regulators in oocytes are RNA-binding proteins (RNAbps) that assemble their targets into ribonucleoprotein granules where they are stored, transported and translationally regulated. RNA-binding protein of multiple splice forms 2, or Rbpms2, interacts with molecules that are essential to reproduction and egg patterning, including bucky ball, a key factor for Bb formation. Rbpms2 is localized to germ granules in primordial germ cells (PGCs) and to the Balbiani body (Bb) of oocytes, although the mechanisms regulating Rbpms2 localization to these structures are unknown. Using mutant Rbpms2 proteins, we show that Rbpms2 requires distinct protein domains to localize within germ cells and somatic cells. Accumulation and localization to subcellular compartments in the germline requires an intact RNA binding domain. Whereas in zebrafish somatic blastula cells, the conserved C-terminal domain promotes localization to the bipolar centrosomes/spindle. To investigate Rbpms2 functions, we mutated the duplicated and functionally redundant zebrafish rbpms2 genes. The gonads of rbpms2a;2b (rbpms2) mutants initially contain early oocytes, however definitive oogenesis ultimately fails during sexual differentiation and, rbpms2 mutants develop as fertile males. Unlike other genes that promote oogenesis, failure to maintain oocytes in rbpms2 mutants was not suppressed by mutation of Tp53. These findings reveal a novel and essential role for rbpms2 in oogenesis. Ultrastructural and immunohistochemical analyses revealed that rbpms2 is not required for the asymmetric accumulation of mitochondria and Buc protein in oocytes, however its absence resulted in formation of abnormal Buc aggregates and atypical electron-dense cytoplasmic inclusions. Our findings reveal novel and essential roles for rbpms2 in Buc organization and oocyte differentiation.

摘要

卵母细胞中最突出的发育调节剂是 RNA 结合蛋白 (RNAbps),它们将其靶标组装成核糖核蛋白颗粒,在这些颗粒中它们被储存、运输和翻译调控。多剪接形式 2 的 RNA 结合蛋白,或 Rbpms2,与生殖和卵子图案形成所必需的分子相互作用,包括 bucky ball,这是形成 Bb 的关键因素。Rbpms2 定位于原始生殖细胞 (PGC) 的生殖颗粒和卵母细胞的 Balbiani 体 (Bb),尽管调节 Rbpms2 定位于这些结构的机制尚不清楚。使用突变的 Rbpms2 蛋白,我们表明 Rbpms2 需要不同的蛋白结构域才能在生殖细胞和体细胞中定位。在生殖细胞中积累和定位到亚细胞隔室需要完整的 RNA 结合结构域。而在斑马鱼体细胞囊胚细胞中,保守的 C 末端结构域促进了定位到双极中心体/纺锤体。为了研究 Rbpms2 的功能,我们突变了功能冗余的斑马鱼 rbpms2 基因。rbpms2 突变体的性腺最初含有早期卵母细胞,然而在性分化过程中最终无法完成卵母细胞的形成,并且 rbpms2 突变体发育为可育的雄性。与其他促进卵母细胞发生的基因不同,在 rbpms2 突变体中,Tp53 突变不能抑制卵母细胞的维持。这些发现揭示了 rbpms2 在卵母细胞发生中的一个新的和必需的作用。超微结构和免疫组织化学分析表明,rbpms2 对于 Buc 蛋白在卵母细胞中的不对称积累不是必需的,然而它的缺失导致异常的 Buc 聚集体和典型的电子致密细胞质内含物的形成。我们的研究结果揭示了 rbpms2 在 Buc 组织和卵母细胞分化中的新的和必需的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f43c/6049948/6d8bdb616cbc/pgen.1007489.g011.jpg
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