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人源RAP74的功能结构域,包括一个被掩盖的聚合酶结合结构域。

Functional domains of human RAP74 including a masked polymerase binding domain.

作者信息

Wang B Q, Burton Z F

机构信息

Department of Biochemistry, Michigan State University, East Lansing 48824, USA.

出版信息

J Biol Chem. 1995 Nov 10;270(45):27035-44. doi: 10.1074/jbc.270.45.27035.

DOI:10.1074/jbc.270.45.27035
PMID:7592953
Abstract

RAP74, the large subunit of human transcription factor IIF (TFIIF), has been analyzed by deletion mutagenesis and in vitro assays to map functional domains. Tight binding to the RAP30 subunit involves amino acids between positions 1-172. Amino acids 1-205 are minimally sufficient to stimulate accurate transcription from the adenovirus major late promoter in an extract system, although C-terminal sequences contribute to activity. A partially masked RNA polymerase II binding domain has been mapped to the C-terminal region of the protein (amino acids 363-444). Sequences near the N terminus and within the central portion of RAP74 affect accessibility of this domain. Extending this domain to 363-486 creates a peptide that binds polymerase and DNA and inhibits transcription initiation in vitro from non-promoter DNA sites. This larger C-terminal domain may modify polymerase interaction with template during initiation and/or elongation of RNA chains.

摘要

人转录因子IIF(TFIIF)的大亚基RAP74已通过缺失诱变和体外分析来绘制功能域。与RAP30亚基的紧密结合涉及1-172位之间的氨基酸。1-205位氨基酸在提取物系统中对刺激腺病毒主要晚期启动子的精确转录是最低限度足够的,尽管C端序列对活性有贡献。一个部分被掩盖的RNA聚合酶II结合域已被定位到该蛋白的C端区域(363-444位氨基酸)。RAP74 N端附近和中央部分的序列影响该结构域的可及性。将该结构域延伸至363-486位产生一种肽,该肽结合聚合酶和DNA并在体外抑制非启动子DNA位点的转录起始。这个更大的C端结构域可能在RNA链起始和/或延伸过程中改变聚合酶与模板的相互作用。

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