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CONSTANS赋予组蛋白折叠NF-YB/NF-YC二聚体DNA序列特异性。

CONSTANS Imparts DNA Sequence Specificity to the Histone Fold NF-YB/NF-YC Dimer.

作者信息

Gnesutta Nerina, Kumimoto Roderick W, Swain Swadhin, Chiara Matteo, Siriwardana Chamindika, Horner David S, Holt Ben F, Mantovani Roberto

机构信息

Dipartimento di Bioscienze, Università degli Studi di Milano, 20133, Milano, Italy.

Department of Microbiology and Plant Biology, University of Oklahoma, Norman, Oklahoma 73019.

出版信息

Plant Cell. 2017 Jun;29(6):1516-1532. doi: 10.1105/tpc.16.00864. Epub 2017 May 19.

DOI:10.1105/tpc.16.00864
PMID:28526714
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5502446/
Abstract

Nuclear Factor Y (NF-Y) is a heterotrimeric transcription factor that binds elements. The NF-Y trimer is composed of a Histone Fold Domain (HFD) dimer (NF-YB/NF-YC) and NF-YA, which confers DNA sequence specificity. NF-YA shares a conserved domain with the CONSTANS, CONSTANS-LIKE, TOC1 (CCT) proteins. We show that CONSTANS (CO/B-BOX PROTEIN1 BBX1), a master flowering regulator, forms a trimer with NF-YB2/NF-YC3 to efficiently bind the element of the promoter. We term this complex NF-CO. Using saturation mutagenesis, electrophoretic mobility shift assays, and RNA-sequencing profiling of , , and mutants, we identify elements as the core NF-CO binding site. CO physically interacts with the same HFD surface required for NF-YA association, as determined by mutations in NF-YB2 and NF-YC9, and tested in vitro and in vivo. The mutation in the CCT domain, corresponding to an NF-YA arginine directly involved in recognition, abolishes NF-CO binding to DNA. In summary, a unifying molecular mechanism of CO function relates it to the NF-YA paradigm, as part of a trimeric complex imparting sequence specificity to HFD/DNA interactions. It is likely that members of the large CCT family participate in similar complexes with At-NF-YB and At-NF-YC, broadening HFD combinatorial possibilities in terms of trimerization, DNA binding specificities, and transcriptional regulation.

摘要

核因子Y(NF-Y)是一种异源三聚体转录因子,可结合元件。NF-Y三聚体由一个组蛋白折叠结构域(HFD)二聚体(NF-YB/NF-YC)和NF-YA组成,后者赋予DNA序列特异性。NF-YA与CONSTANS、CONSTANS-LIKE、TOC1(CCT)蛋白共享一个保守结构域。我们发现,作为主要开花调节因子的CONSTANS(CO/B-BOX蛋白1 BBX1)与NF-YB2/NF-YC3形成三聚体,以有效结合启动子的元件。我们将这种复合物称为NF-CO。通过饱和诱变、电泳迁移率变动分析以及对、和突变体的RNA测序分析,我们确定元件为核心NF-CO结合位点。如通过NF-YB2和NF-YC9中的突变所确定,并在体外和体内进行测试,CO与NF-YA结合所需的相同HFD表面发生物理相互作用。CCT结构域中的突变,对应于直接参与识别的NF-YA精氨酸,消除了NF-CO与DNA的结合。总之,CO功能的统一分子机制将其与NF-YA范式联系起来,作为三聚体复合物的一部分,赋予HFD/DNA相互作用序列特异性。大型CCT家族的成员可能与At-NF-YB和At-NF-YC参与类似的复合物,在三聚化、DNA结合特异性和转录调控方面拓宽HFD组合可能性。

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