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Isw2和Sin3-Rpd3染色质重塑复合物在转录抑制中的广泛协作。

Widespread collaboration of Isw2 and Sin3-Rpd3 chromatin remodeling complexes in transcriptional repression.

作者信息

Fazzio T G, Kooperberg C, Goldmark J P, Neal C, Basom R, Delrow J, Tsukiyama T

机构信息

Division of Basic Sciences, Fred Hutchinson Cancer Research Center, Seattle, Washington 98109-1024, USA.

出版信息

Mol Cell Biol. 2001 Oct;21(19):6450-60. doi: 10.1128/MCB.21.19.6450-6460.2001.

DOI:10.1128/MCB.21.19.6450-6460.2001

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC99792/

Abstract

The yeast Isw2 chromatin remodeling complex functions in parallel with the Sin3-Rpd3 histone deacetylase complex to repress early meiotic genes upon recruitment by Ume6p. For many of these genes, the effect of an isw2 mutation is partially masked by a functional Sin3-Rpd3 complex. To identify the full range of genes repressed or activated by these factors and uncover hidden targets of Isw2-dependent regulation, we performed full genome expression analyses using cDNA microarrays. We find that the Isw2 complex functions mainly in repression of transcription in a parallel pathway with the Sin3-Rpd3 complex. In addition to Ume6 target genes, we find that many Ume6-independent genes are derepressed in mutants lacking functional Isw2 and Sin3-Rpd3 complexes. Conversely, we find that ume6 mutants, but not isw2 sin3 or isw2 rpd3 double mutants, have reduced fidelity of mitotic chromosome segregation, suggesting that one or more functions of Ume6p are independent of Sin3-Rpd3 and Isw2 complexes. Chromatin structure analyses of two nonmeiotic genes reveals increased DNase I sensitivity within their regulatory regions in an isw2 mutant, as seen previously for one meiotic locus. These data suggest that the Isw2 complex functions at Ume6-dependent and -independent loci to create DNase I-inaccessible chromatin structure by regulating the positioning or placement of nucleosomes.

摘要

酵母Isw2染色质重塑复合物与Sin3-Rpd3组蛋白去乙酰化酶复合物协同发挥作用，在被Ume6p招募后抑制早期减数分裂基因。对于其中许多基因，isw2突变的影响部分被功能性Sin3-Rpd3复合物掩盖。为了确定这些因子抑制或激活的全部基因范围，并揭示Isw2依赖性调控的隐藏靶点，我们使用cDNA微阵列进行了全基因组表达分析。我们发现Isw2复合物主要在与Sin3-Rpd3复合物平行的途径中发挥转录抑制作用。除了Ume6靶基因外，我们还发现许多不依赖Ume6的基因在缺乏功能性Isw2和Sin3-Rpd3复合物的突变体中去抑制。相反，我们发现ume6突变体，但不是isw2 sin3或isw2 rpd3双突变体，有丝分裂染色体分离的保真度降低，这表明Ume6p的一种或多种功能独立于Sin3-Rpd3和Isw2复合物。对两个非减数分裂基因的染色质结构分析显示，在isw2突变体中其调控区域内DNase I敏感性增加，这与之前在一个减数分裂位点观察到的情况一样。这些数据表明，Isw2复合物在依赖Ume6和不依赖Ume6的位点发挥作用，通过调节核小体的定位或位置来形成对DNase I不可接近的染色质结构。