人类TFIID组件TAF(II)135和TAF(II)20以及酵母SAGA组件ADA1和TAF(II)68会异源二聚化形成组蛋白样对。

The human TFIID components TAF(II)135 and TAF(II)20 and the yeast SAGA components ADA1 and TAF(II)68 heterodimerize to form histone-like pairs.

作者信息

Gangloff Y G, Werten S, Romier C, Carré L, Poch O, Moras D, Davidson I

机构信息

Institut de Génétique et de Biologie Moléculaire et Cellulaire, CNRS/INSERM/ULP, Illkirch Cédex, C.U. de Strasbourg, France.

出版信息

Mol Cell Biol. 2000 Jan;20(1):340-51. doi: 10.1128/MCB.20.1.340-351.2000.

DOI:10.1128/MCB.20.1.340-351.2000

PMID:10594036

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC85089/

Abstract

It has been previously proposed that the transcription complexes TFIID and SAGA comprise a histone octamer-like substructure formed from a heterotetramer of H4-like human hTAF(II)80 (or its Drosophila melanogaster dTAF(II)60 and yeast [Saccharomyces cerevisiae] yTAF(II)60 homologues) and H3-like hTAF(II)31 (dTAF(II)40 and yTAF(II)17) along with two homodimers of H2B-like hTAF(II)20 (dTAF(II)30alpha and yTAF(II)61/68). However, it has not been formally shown that hTAF(II)20 heterodimerizes via its histone fold. By two-hybrid analysis with yeast and biochemical characterization of complexes formed by coexpression in Escherichia coli, we showed that hTAF(II)20 does not homodimerize but heterodimerizes with hTAF(II)135. Heterodimerization requires the alpha2 and alpha3 helices of the hTAF(II)20 histone fold and is abolished by mutations in the hydrophobic face of the hTAF(II)20 alpha2 helix. Interaction with hTAF(II)20 requires a domain of hTAF(II)135 which shows sequence homology to H2A. This domain also shows homology to the yeast SAGA component ADA1, and we show that yADA1 heterodimerizes with the histone fold region of yTAF(II)61/68, the yeast hTAF(II)20 homologue. These results are indicative of a histone fold type of interaction between hTAF(II)20-hTAF(II)135 and yTAF(II)68-yADA1, which therefore constitute novel histone-like pairs in the TFIID and SAGA complexes.

摘要

先前有人提出，转录复合物TFIID和SAGA包含一种由类组蛋白八聚体样亚结构组成，该亚结构由类H4的人hTAF(II)80（或其果蝇dTAF(II)60和酵母[酿酒酵母]yTAF(II)60同源物）和类H3的hTAF(II)31（dTAF(II)40和yTAF(II)17）的异源四聚体以及两个类H2B的hTAF(II)20（dTAF(II)30α和yTAF(II)61/68）同二聚体形成。然而，尚未正式证明hTAF(II)20通过其组蛋白折叠形成异二聚体。通过酵母双杂交分析以及在大肠杆菌中共表达形成的复合物的生化特性分析，我们表明hTAF(II)20不会形成同二聚体，而是与hTAF(II)135形成异二聚体。异二聚体形成需要hTAF(II)20组蛋白折叠的α2和α3螺旋，并且hTAF(II)20α2螺旋疏水面上的突变会消除这种异二聚体形成。与hTAF(II)20相互作用需要hTAF(II)135的一个结构域，该结构域与H2A具有序列同源性。该结构域也与酵母SAGA组分ADA1具有同源性，并且我们表明yADA1与酵母hTAF(II)20同源物yTAF(II)61/68的组蛋白折叠区域形成异二聚体。这些结果表明hTAF(II)20 - hTAF(II)135和yTAF(II)68 - yADA1之间存在组蛋白折叠类型的相互作用，因此它们在TFIID和SAGA复合物中构成了新的类组蛋白对。

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