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Spacing requirements for interactions between the C-terminal domain of the alpha subunit of Escherichia coli RNA polymerase and the cAMP receptor protein.大肠杆菌RNA聚合酶α亚基C末端结构域与cAMP受体蛋白之间相互作用的间距要求。
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Transcription activation at class II CAP-dependent promoters.II类CAP依赖性启动子的转录激活
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Nucleic Acids Res. 1997 Jan 15;25(2):326-32. doi: 10.1093/nar/25.2.326.
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Transcription activation at class II CAP-dependent promoters: two interactions between CAP and RNA polymerase.II类CAP依赖性启动子的转录激活:CAP与RNA聚合酶之间的两种相互作用。
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Transcription activation by the bacteriophage Mu Mor protein requires the C-terminal regions of both alpha and sigma70 subunits of Escherichia coli RNA polymerase.噬菌体Mu Mor蛋白的转录激活需要大肠杆菌RNA聚合酶α亚基和σ70亚基的C末端区域。
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10
Transcription factor recognition surface on the RNA polymerase alpha subunit is involved in contact with the DNA enhancer element.RNA聚合酶α亚基上的转录因子识别表面参与与DNA增强子元件的接触。
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II类CRP依赖性启动子的转录激活:RNA聚合酶α亚基C末端结构域中决定因素的鉴定。

Transcription activation at Class II CRP-dependent promoters: identification of determinants in the C-terminal domain of the RNA polymerase alpha subunit.

作者信息

Savery N J, Lloyd G S, Kainz M, Gaal T, Ross W, Ebright R H, Gourse R L, Busby S J

机构信息

School of Biochemistry, University of Birmingham, Birmingham, UK.

出版信息

EMBO J. 1998 Jun 15;17(12):3439-47. doi: 10.1093/emboj/17.12.3439.

DOI:10.1093/emboj/17.12.3439
PMID:9628879
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170680/
Abstract

Many transcription factors, including the Escherichia coli cyclic AMP receptor protein (CRP), act by making direct contacts with RNA polymerase. At Class II CRP-dependent promoters, CRP activates transcription by making two such contacts: (i) an interaction with the RNA polymerase alpha subunit C-terminal domain (alphaCTD) that facilitates initial binding of RNA polymerase to promoter DNA; and (ii) an interaction with the RNA polymerase alpha subunit N-terminal domain that facilitates subsequent promoter opening. We have used random mutagenesis and alanine scanning to identify determinants within alphaCTD for transcription activation at a Class II CRP-dependent promoter. Our results indicate that Class II CRP-dependent transcription requires the side chains of residues 265, 271, 285-288 and 317. Residues 285-288 and 317 comprise a discrete 20x10 A surface on alphaCTD, and substitutions within this determinant reduce or eliminate cooperative interactions between alpha subunits and CRP, but do not affect DNA binding by alpha subunits. We propose that, in the ternary complex of RNA polymerase, CRP and a Class II CRP-dependent promoter, this determinant in alphaCTD interacts directly with CRP, and is distinct from and on the opposite face to the proposed determinant for alphaCTD-CRP interaction in Class I CRP-dependent transcription.

摘要

许多转录因子,包括大肠杆菌环腺苷酸受体蛋白(CRP),通过与RNA聚合酶直接接触发挥作用。在II类CRP依赖性启动子处,CRP通过进行两种这样的接触来激活转录:(i)与RNA聚合酶α亚基C末端结构域(αCTD)相互作用,促进RNA聚合酶与启动子DNA的初始结合;(ii)与RNA聚合酶α亚基N末端结构域相互作用,促进随后的启动子解链。我们利用随机诱变和丙氨酸扫描来确定αCTD内用于II类CRP依赖性启动子转录激活的决定因素。我们的结果表明,II类CRP依赖性转录需要265、271、285 - 288和317位残基的侧链。285 - 288和317位残基在αCTD上构成一个离散的20×10 Å表面,该决定因素内的取代会减少或消除α亚基与CRP之间的协同相互作用,但不影响α亚基与DNA的结合。我们提出,在RNA聚合酶、CRP和II类CRP依赖性启动子的三元复合物中,αCTD中的这个决定因素直接与CRP相互作用,并且与I类CRP依赖性转录中αCTD - CRP相互作用的拟决定因素不同且位于相反的面上。