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NF-Y 招募 TFIID,与组蛋白折叠 TAF(II) 存在多种相互作用。

NF-Y recruitment of TFIID, multiple interactions with histone fold TAF(II)s.

作者信息

Frontini Mattia, Imbriano Carol, diSilvio Alberto, Bell Brendan, Bogni Alessia, Romier Christophe, Moras Dino, Tora Laszlo, Davidson Irwin, Mantovani Roberto

机构信息

Dipartimento di Biologia Animale, Università di Modena e Reggio, Via Campi 213/d, Modena 41100, Italy.

出版信息

J Biol Chem. 2002 Feb 22;277(8):5841-8. doi: 10.1074/jbc.M103651200. Epub 2001 Oct 31.

DOI:10.1074/jbc.M103651200
PMID:11689552
Abstract

The nuclear factor y (NF-Y) trimer and TFIID contain histone fold subunits, and their binding to the CCAAT and Initiator elements of the major histocompatibility complex class II Ea promoter is required for transcriptional activation. Using agarose-electrophoretic mobility shift assay we found that NF-Y increases the affinity of holo-TFIID for Ea in a CCAAT- and Inr-dependent manner. We began to dissect the interplay between NF-Y- and TBP-associated factors PO1II (TAF(II)s)-containing histone fold domains in protein-protein interactions and transfections. hTAF(II)20, hTAF(II)28, and hTAF(II)18-hTAF(II)28 bind to the NF-Y B-NF-YC histone fold dimer; hTAF(II)80 and hTAF(II)31-hTAF(II)80 interact with the trimer but not with the NF-YB-NF-YC dimer. The histone fold alpha2 helix of hTAF(II)80 is not required for NF-Y association, as determined by interactions with the naturally occurring splice variant hTAF(II)80 delta. Expression of hTAF(II)28 and hTAF(II)18 in mouse cells significantly and specifically reduced NF-Y activation in GAL4-based experiments, whereas hTAF(II)20 and hTAF(II)135 increased it. These results indicate that NF-Y (i) recruits purified holo-TFIID in vitro and (ii) can associate multiple TAF(II)s, potentially accommodating different core promoter architectures.

摘要

核因子Y(NF-Y)三聚体和TFIID包含组蛋白折叠亚基,它们与主要组织相容性复合体II类Ea启动子的CCAAT元件和起始子元件的结合是转录激活所必需的。使用琼脂糖凝胶电泳迁移率变动分析,我们发现NF-Y以CCAAT和Inr依赖的方式增加了全酶TFIID与Ea的亲和力。我们开始剖析在蛋白质-蛋白质相互作用和转染中,NF-Y与含组蛋白折叠结构域的TBP相关因子PO1II(TAF(II)s)之间的相互作用。hTAF(II)20、hTAF(II)28和hTAF(II)18-hTAF(II)28与NF-Y B-NF-YC组蛋白折叠二聚体结合;hTAF(II)80和hTAF(II)31-hTAF(II)80与三聚体相互作用,但不与NF-YB-NF-YC二聚体相互作用。通过与天然存在的剪接变体hTAF(II)80 delta的相互作用确定,hTAF(II)80的组蛋白折叠α2螺旋对于NF-Y结合不是必需的。在基于GAL4的实验中,hTAF(II)28和hTAF(II)18在小鼠细胞中的表达显著且特异性地降低了NF-Y的激活,而hTAF(II)20和hTAF(II)135则增加了其激活。这些结果表明,NF-Y(i)在体外募集纯化的全酶TFIID,并且(ii)可以与多个TAF(II)s结合,可能适应不同的核心启动子结构。

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