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建立一种新型的体内性别特异性剪接检测系统,以鉴定一种对家蚕dsx雌性外显子剪接起负调控作用的反式作用因子。

Establishment of a novel in vivo sex-specific splicing assay system to identify a trans-acting factor that negatively regulates splicing of Bombyx mori dsx female exons.

作者信息

Suzuki Masataka G, Imanishi Shigeo, Dohmae Naoshi, Nishimura Tomoe, Shimada Toru, Matsumoto Shogo

机构信息

Laboratory of Molecular Entomology, The Institute of Physical and Chemical Research 2-1, Hirosawa, Wako, Saitama 351-0198, Japan.

出版信息

Mol Cell Biol. 2008 Jan;28(1):333-43. doi: 10.1128/MCB.01528-07. Epub 2007 Oct 29.

DOI:10.1128/MCB.01528-07
PMID:17967886
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2223278/
Abstract

The Bombyx mori homolog of doublesex, Bmdsx, plays an essential role in silkworm sexual development. Exons 3 and 4 of Bmdsx pre-mRNA are specifically excluded in males. To explore how this occurs, we developed a novel in vivo sex-specific splicing assay system using sexually differentiated cultured cells. A series of mutation analyses using a Bmdsx minigene with this in vivo splicing assay system identified three distinct sequences (CE1, CE2, and CE3) positioned in exon 4 as exonic splicing silencers responsible for male-specific splicing. Gel shift analysis showed that CE1 binds to a nuclear protein from male cells but not that from female cells. Mutation of UAA repeats within CE1 inhibited the binding of the nuclear protein to the RNA and caused female-specific splicing in male cells. We have identified BmPSI, a Bombyx homolog of P-element somatic inhibitor (PSI), as the nuclear factor that specifically binds CE1. Down-regulation of endogenous BmPSI by RNA interference significantly increased female-specific splicing in male cells. This is the first report of a PSI homolog implicated in the regulated sex-specific splicing of dsx pre-mRNA.

摘要

家蚕双性基因的同源基因Bmdsx在家蚕性别发育中起着至关重要的作用。Bmdsx前体mRNA的外显子3和4在雄性中被特异性排除。为了探究这一过程是如何发生的,我们利用性别分化的培养细胞开发了一种新型的体内性别特异性剪接检测系统。使用带有该体内剪接检测系统的Bmdsx小基因进行的一系列突变分析,确定了位于外显子4中的三个不同序列(CE1、CE2和CE3)作为负责雄性特异性剪接的外显子剪接沉默子。凝胶迁移分析表明,CE1与雄性细胞的核蛋白结合,但不与雌性细胞的核蛋白结合。CE1内UAA重复序列的突变抑制了核蛋白与RNA的结合,并在雄性细胞中导致雌性特异性剪接。我们鉴定出BmPSI,即P因子体细胞抑制剂(PSI)的家蚕同源物,作为特异性结合CE1的核因子。通过RNA干扰下调内源性BmPSI可显著增加雄性细胞中的雌性特异性剪接。这是关于PSI同源物参与dsx前体mRNA的调控性别特异性剪接的首次报道。

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