The budding yeast Fkh1 Forkhead associated (FHA) domain promotes a G1-chromatin state and the activity of chromosomal DNA replication origins.

IF 4 2区 生物学 Q1 GENETICS & HEREDITY
PLoS Genetics Pub Date : 2024-08-05 eCollection Date: 2024-08-01 DOI:10.1371/journal.pgen.1011366
Timothy Hoggard, Erika Chacin, Allison J Hollatz, Christoph F Kurat, Catherine A Fox
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引用次数: 0

Abstract

In Saccharomyces cerevisiae, the forkhead (Fkh) transcription factor Fkh1 (forkhead homolog) enhances the activity of many DNA replication origins that act in early S-phase (early origins). Current models posit that Fkh1 acts directly to promote these origins' activity by binding to origin-adjacent Fkh1 binding sites (FKH sites). However, the post-DNA binding functions that Fkh1 uses to promote early origin activity are poorly understood. Fkh1 contains a conserved FHA (forkhead associated) domain, a protein-binding module with specificity for phosphothreonine (pT)-containing partner proteins. At a small subset of yeast origins, the Fkh1-FHA domain enhances the ORC (origin recognition complex)-origin binding step, the G1-phase event that initiates the origin cycle. However, the importance of the Fkh1-FHA domain to either chromosomal replication or ORC-origin interactions at genome scale is unclear. Here, S-phase SortSeq experiments were used to compare genome replication in proliferating FKH1 and fkh1-R80A mutant cells. The Fkh1-FHA domain promoted the activity of ≈ 100 origins that act in early to mid- S-phase, including the majority of centromere-associated origins, while simultaneously inhibiting ≈ 100 late origins. Thus, in the absence of a functional Fkh1-FHA domain, the temporal landscape of the yeast genome was flattened. Origins are associated with a positioned nucleosome array that frames a nucleosome depleted region (NDR) over the origin, and ORC-origin binding is necessary but not sufficient for this chromatin organization. To ask whether the Fkh1-FHA domain had an impact on this chromatin architecture at origins, ORC ChIPSeq data generated from proliferating cells and MNaseSeq data generated from G1-arrested and proliferating cell populations were assessed. Origin groups that were differentially regulated by the Fkh1-FHA domain were characterized by distinct effects of this domain on ORC-origin binding and G1-phase chromatin. Thus, the Fkh1-FHA domain controlled the distinct chromatin architecture at early origins in G1-phase and regulated origin activity in S-phase.

芽殖酵母 Fkh1 叉头相关(FHA)结构域能促进 G1 染色质状态和染色体 DNA 复制起源的活性。
在酿酒酵母(Saccharomyces cerevisiae)中,叉头(Fkh)转录因子 Fkh1(叉头同源物)可增强许多在早期 S 期(早期起源)发挥作用的 DNA 复制起源的活性。目前的模型认为,Fkh1 通过与起源相邻的 Fkh1 结合位点(FKH 位点)结合,直接促进这些起源的活性。然而,人们对 Fkh1 用于促进早期起源活动的 DNA 结合后功能知之甚少。Fkh1 含有一个保守的 FHA(叉头相关)结构域,这是一个蛋白质结合模块,对含磷苏氨酸(pT)的伙伴蛋白具有特异性。在一小部分酵母起源中,Fkh1-FHA 结构域会增强 ORC(起源识别复合物)-起源结合步骤,这是启动起源周期的 G1 阶段事件。然而,Fkh1-FHA结构域对染色体复制或基因组规模的ORC-起源相互作用的重要性尚不清楚。本文利用S期SortSeq实验比较了增殖的FKH1和fkh1-R80A突变体细胞的基因组复制情况。Fkh1-FHA结构域促进了≈100个作用于S期早中期的起源的活性,包括大多数中心粒相关起源,同时抑制了≈100个晚期起源。因此,在缺乏功能性 Fkh1-FHA 结构域的情况下,酵母基因组的时间景观变得扁平。起源与定位核糖体阵列有关,该阵列在起源上方框定了一个核糖体耗竭区(NDR),ORC-起源结合对于这种染色质组织是必要的,但并不充分。为了弄清Fkh1-FHA结构域是否对起源处的这种染色质结构有影响,我们评估了增殖细胞产生的ORC ChIPSeq数据和G1停滞细胞群及增殖细胞群产生的MNaseSeq数据。受Fkh1-FHA结构域不同调控的起源组的特征是,该结构域对ORC-起源结合和G1期染色质有不同的影响。因此,Fkh1-FHA结构域控制了G1期早期起源的独特染色质结构,并调节了S期起源的活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
PLoS Genetics
PLoS Genetics GENETICS & HEREDITY-
自引率
2.20%
发文量
438
期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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