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果蝇茎环结合蛋白将成熟组蛋白mRNA的积累与细胞周期进程相协调。

Drosophila stem loop binding protein coordinates accumulation of mature histone mRNA with cell cycle progression.

作者信息

Sullivan E, Santiago C, Parker E D, Dominski Z, Yang X, Lanzotti D J, Ingledue T C, Marzluff W F, Duronio R J

机构信息

Program in Molecular Biology and Biotechnology, University of North Carolina, Chapel Hill, North Carolina 27599, USA.

出版信息

Genes Dev. 2001 Jan 15;15(2):173-87. doi: 10.1101/gad.862801.

DOI:10.1101/gad.862801

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC312608/

Abstract

Replication-associated histone genes encode the only metazoan mRNAs that lack polyA tails, ending instead in a conserved 26-nt sequence that forms a stem-loop. Most of the regulation of mammalian histone mRNA is posttranscriptional and mediated by this unique 3' end. Stem-loop-binding protein (SLBP) binds to the histone mRNA 3' end and is thought to participate in all aspects of histone mRNA metabolism, including cell cycle regulation. To examine SLBP function genetically, we have cloned the gene encoding Drosophila SLBP (dSLBP) by a yeast three-hybrid method and have isolated mutations in dSLBP. dSLBP function is required both zygotically and maternally. Strong dSLBP alleles cause zygotic lethality late in development and result in production of stable histone mRNA that accumulates in nonreplicating cells. These histone mRNAs are cytoplasmic and have polyadenylated 3' ends like other polymerase II transcripts. Hypomorphic dSLBP alleles support zygotic development but cause female sterility. Eggs from these females contain dramatically reduced levels of histone mRNA, and mutant embryos are not able to complete the syncytial embryonic cycles. This is in part because of a failure of chromosome condensation at mitosis that blocks normal anaphase. These data demonstrate that dSLBP is required in vivo for 3' end processing of histone pre-mRNA, and that this is an essential function for development. Moreover, dSLBP-dependent processing plays an important role in coupling histone mRNA production with the cell cycle.

摘要

与复制相关的组蛋白基因编码后生动物中唯一缺乏多聚腺苷酸尾巴的mRNA，而是以形成茎环的保守26个核苷酸序列结尾。哺乳动物组蛋白mRNA的大多数调控是在转录后进行的，并由这个独特的3'末端介导。茎环结合蛋白（SLBP）与组蛋白mRNA的3'末端结合，并被认为参与组蛋白mRNA代谢的各个方面，包括细胞周期调控。为了从遗传学上研究SLBP的功能，我们通过酵母三杂交方法克隆了编码果蝇SLBP（dSLBP）的基因，并分离出了dSLBP中的突变。dSLBP的功能在合子和母体中都是必需的。强dSLBP等位基因在发育后期导致合子致死，并导致稳定的组蛋白mRNA产生，这些mRNA在非复制细胞中积累。这些组蛋白mRNA是细胞质的，并且具有像其他聚合酶II转录本一样的多聚腺苷酸化3'末端。低表达的dSLBP等位基因支持合子发育，但导致雌性不育。这些雌性产生的卵中组蛋白mRNA水平显著降低，突变胚胎无法完成合胞体胚胎周期。这部分是由于有丝分裂时染色体浓缩失败，从而阻止了正常的后期。这些数据表明，dSLBP在体内是组蛋白前体mRNA 3'末端加工所必需的，并且这是发育的一项基本功能。此外，依赖dSLBP的加工在将组蛋白mRNA产生与细胞周期耦合中起重要作用。