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HapX与CCAAT结合复合物的相互作用——铁调控基因的新机制。

Interaction of HapX with the CCAAT-binding complex--a novel mechanism of gene regulation by iron.

作者信息

Hortschansky Peter, Eisendle Martin, Al-Abdallah Qusai, Schmidt André D, Bergmann Sebastian, Thön Marcel, Kniemeyer Olaf, Abt Beate, Seeber Birgit, Werner Ernst R, Kato Masashi, Brakhage Axel A, Haas Hubertus

机构信息

Department of Molecular and Applied Microbiology, Leibniz Institute for Natural Product Research and Infection Biology (HKI), and Friedrich-Schiller-University Jena, Jena, Germany.

出版信息

EMBO J. 2007 Jul 11;26(13):3157-68. doi: 10.1038/sj.emboj.7601752. Epub 2007 Jun 14.

DOI:10.1038/sj.emboj.7601752
PMID:17568774
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1914100/
Abstract

Iron homeostasis requires subtle control systems, as iron is both essential and toxic. In Aspergillus nidulans, iron represses iron acquisition via the GATA factor SreA, and induces iron-dependent pathways at the transcriptional level, by a so far unknown mechanism. Here, we demonstrate that iron-dependent pathways (e.g., heme biosynthesis) are repressed during iron-depleted conditions by physical interaction of HapX with the CCAAT-binding core complex (CBC). Proteome analysis identified putative HapX targets. Mutual transcriptional control between hapX and sreA and synthetic lethality resulting from deletion of both regulatory genes indicate a tight interplay of these control systems. Expression of genes encoding CBC subunits was not influenced by iron availability, and their deletion was deleterious during iron-depleted and iron-replete conditions. Expression of hapX was repressed by iron and its deletion was deleterious during iron-depleted conditions only. These data indicate that the CBC has a general role and that HapX function is confined to iron-depleted conditions. Remarkably, CBC-mediated regulation has an inverse impact on the expression of the same gene set in A. nidulans, compared with Saccharomyces cerevisae.

摘要

铁稳态需要精细的控制系统,因为铁既是必需的又是有毒的。在构巢曲霉中,铁通过GATA因子SreA抑制铁的获取,并通过一种迄今未知的机制在转录水平上诱导铁依赖途径。在此,我们证明在缺铁条件下,HapX与CCAAT结合核心复合体(CBC)的物理相互作用会抑制铁依赖途径(如血红素生物合成)。蛋白质组分析确定了假定的HapX靶标。hapX和sreA之间的相互转录调控以及两个调控基因缺失导致的合成致死性表明这些控制系统之间存在紧密的相互作用。编码CBC亚基的基因表达不受铁可用性的影响,其缺失在缺铁和铁充足条件下都是有害的。hapX的表达受铁抑制,其缺失仅在缺铁条件下是有害的。这些数据表明CBC具有普遍作用,而HapX的功能仅限于缺铁条件。值得注意的是,与酿酒酵母相比,CBC介导的调控对构巢曲霉中同一基因集的表达有相反的影响。

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