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对增殖细胞核抗原(PCNA)结合有缺陷的染色质组装因子I突变体在沉默过程中需要Asf1/Hir蛋白。

Chromatin assembly factor I mutants defective for PCNA binding require Asf1/Hir proteins for silencing.

作者信息

Krawitz Denise C, Kama Tamar, Kaufman Paul D

机构信息

Lawrence Berkeley National Laboratory and Department of Molecular and Cell Biology, University of California, Berkeley, Berkeley, California 94720, USA.

出版信息

Mol Cell Biol. 2002 Jan;22(2):614-25. doi: 10.1128/MCB.22.2.614-625.2002.

DOI:10.1128/MCB.22.2.614-625.2002
PMID:11756556
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC139734/
Abstract

Chromatin assembly factor I (CAF-I) is a conserved histone H3/H4 deposition complex. Saccharomyces cerevisiae mutants lacking CAF-I subunit genes (CAC1 to CAC3) display reduced heterochromatic gene silencing. In a screen for silencing-impaired cac1 alleles, we isolated a mutation that reduced binding to the Cac3p subunit and another that impaired binding to the DNA replication protein PCNA. Surprisingly, mutations in Cac1p that abolished PCNA binding resulted in very minor telomeric silencing defects but caused silencing to be largely dependent on Hir proteins and Asf1p, which together comprise an alternative silencing pathway. Consistent with these phenotypes, mutant CAF-I complexes defective for PCNA binding displayed reduced nucleosome assembly activity in vitro but were stimulated by Asf1p-histone complexes. Furthermore, these mutant CAF-I complexes displayed a reduced preference for depositing histones onto newly replicated DNA. We also observed a weak interaction between Asf1p and Cac2p in vitro, and we hypothesize that this interaction underlies the functional synergy between these histone deposition proteins.

摘要

染色质组装因子I(CAF-I)是一种保守的组蛋白H3/H4沉积复合物。缺乏CAF-I亚基基因(CAC1至CAC3)的酿酒酵母突变体表现出异染色质基因沉默减少。在对沉默受损的cac1等位基因的筛选中,我们分离出一个降低与Cac3p亚基结合的突变以及另一个损害与DNA复制蛋白PCNA结合的突变。令人惊讶的是,消除PCNA结合的Cac1p突变导致非常轻微的端粒沉默缺陷,但使沉默在很大程度上依赖于Hir蛋白和Asf1p,它们共同构成了一条替代的沉默途径。与这些表型一致,对PCNA结合有缺陷的突变型CAF-I复合物在体外表现出降低的核小体组装活性,但受到Asf1p-组蛋白复合物的刺激。此外,这些突变型CAF-I复合物在将组蛋白沉积到新复制的DNA上时表现出较低的偏好性。我们还在体外观察到Asf1p与Cac2p之间存在微弱相互作用,并且我们推测这种相互作用是这些组蛋白沉积蛋白之间功能协同作用的基础。

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