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噬菌体T7 DNA复制起始位点的核苷酸序列:与相邻基因及调控元件的关系

Nucleotide sequence of the primary origin of bacteriophage T7 DNA replication: relationship to adjacent genes and regulatory elements.

作者信息

Saito H, Tabor S, Tamanoi F, Richardson C C

出版信息

Proc Natl Acad Sci U S A. 1980 Jul;77(7):3917-21. doi: 10.1073/pnas.77.7.3917.

DOI:10.1073/pnas.77.7.3917
PMID:6254001
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC349738/
Abstract

The 682-base-pair nucleotide sequence between positions 14.45 and 16.15 on the bacteriophage T7 DNA molecule has been determined. We can identify not only the sequence of the primary origin of DNA replication but also the termination of gene 1, all of genes 1.1 and 1.2, the start of gene 1.3, and a number of regulatory sequences. The endpoints of four deletion mutations that extend into this region have been determined. These mutations are inferred to have arisen by recombination between short homologous sequences, three of which ar T7 RNA polymerase promoters. The base changes of four point mutations in gene 1.2 have been identified. The sequence essential for initiation at the primary origin is located between the left endpoints of the two deletions D2 and D303. Sequence analysis of these mutants assigns the primary origin to a 129-base-pair segment between positions 14.73 and 15.05. This intergenic segment is A+T-rich (75%) and contains a single T7 gene 4 protein recognition site; it is preceded by two tandem T7 RNA polymerase promoters. A model for initiation of T7 DNA replication is presented.

摘要

已确定噬菌体T7 DNA分子上14.45至16.15位之间682个碱基对的核苷酸序列。我们不仅可以识别DNA复制主要起始位点的序列,还能识别基因1的终止位点、基因1.1和1.2的所有基因、基因1.3的起始位点以及一些调控序列。已确定了延伸到该区域的四个缺失突变的端点。据推测,这些突变是由短同源序列之间的重组产生的,其中三个是T7 RNA聚合酶启动子。已确定了基因1.2中四个点突变的碱基变化。在主要起始位点起始所必需的序列位于两个缺失D2和D303的左端点之间。对这些突变体的序列分析将主要起始位点定位在14.73至15.05位之间的一个129个碱基对的片段上。这个基因间片段富含A+T(75%),并包含一个单一的T7基因4蛋白识别位点;它前面有两个串联的T7 RNA聚合酶启动子。本文提出了一个T7 DNA复制起始的模型。

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