酿酒酵母中由端粒介导的质粒分离涉及沉默子和端粒处转录抑制所需的基因产物。

Telomere-mediated plasmid segregation in Saccharomyces cerevisiae involves gene products required for transcriptional repression at silencers and telomeres.

作者信息

Longtine M S, Enomoto S, Finstad S L, Berman J

机构信息

Department of Plant Biology, University of Minnesota, St. Paul 55108.

出版信息

Genetics. 1993 Feb;133(2):171-82. doi: 10.1093/genetics/133.2.171.

DOI:10.1093/genetics/133.2.171

PMID:8436267

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1205308/

Abstract

Plasmids that contain Saccharomyces cerevisiae TG1-3 telomere repeat sequences (TRS plasmids) segregate efficiently during mitosis. Mutations in histone H4 reduce the efficiency of TRS-mediated plasmid segregation, suggesting that chromatin structure is involved in this process. Sir2, Sir3 and Sir4 are required for the transcriptional repression of genes located at the silent mating type loci (HML and HMR) and at telomeres (telomere position effect) and are also involved in the segregation of TRS plasmids, indicating that TRS-mediated plasmid segregation involves factors that act at chromosomal telomeres. TRS plasmid segregation differes from the segregation of plasmids carrying the HMR E silencing region: HMR E plasmid segregation function is completely dependent upon Sir2, Sir3 and Sir4, involves Sir1 and is not influenced by mutations in RAP 1 that eliminate TRS plasmid segregation. Mutations in SIR1, SIN1, TOP1, TEL1 and TEL2 do not influence TRS plasmid segregation. Unlike transcriptional repression at telomeres, TRS plasmids retain partial segregation function in sir2, sir3, sir4, nat1 and ard1 mutant strains. Thus it is likely that TRS plasmid segregation involves additional factors that are not involved in telomere position effect.

摘要

含有酿酒酵母TG1 - 3端粒重复序列的质粒（TRS质粒）在有丝分裂期间能有效分离。组蛋白H4的突变会降低TRS介导的质粒分离效率，这表明染色质结构参与了这一过程。Sir2、Sir3和Sir4是位于沉默交配型位点（HML和HMR）以及端粒处（端粒位置效应）的基因转录抑制所必需的，并且也参与TRS质粒的分离，这表明TRS介导的质粒分离涉及作用于染色体端粒的因子。TRS质粒分离不同于携带HMR E沉默区域的质粒的分离：HMR E质粒分离功能完全依赖于Sir2、Sir3和Sir4，涉及Sir1，并且不受消除TRS质粒分离的RAP 1突变的影响。SIR1、SIN1、TOP1、TEL1和TEL2的突变不影响TRS质粒分离。与端粒处的转录抑制不同，TRS质粒在sir2、sir3、sir4、nat1和ard1突变菌株中保留部分分离功能。因此，TRS质粒分离可能涉及不参与端粒位置效应的其他因子。

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本文引用的文献

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