环状和超螺旋结构对噬菌体λ DNA转录的影响。

Effect of circularity and superhelicity on transcription from bacteriophagelambda DNA.

作者信息

Botchan P, Wang J C, Echols H

出版信息

Proc Natl Acad Sci U S A. 1973 Nov;70(11):3077-81. doi: 10.1073/pnas.70.11.3077.

DOI:10.1073/pnas.70.11.3077

PMID:4594034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC427173/

Abstract

We studied RNA synthesis in vitro from closed-circular lambda DNA molecules with varying degrees of superhelicity. The four circular templates examined had 0, -50, -110, and -160 superhelical turns under the conditions of the transcription assay. We found that the total amount of RNA synthesis increases as the template acquires more negative superhelical turns. This increased transcription results from more frequent initiation of RNA chains. Transcription of circular DNA with no superhelical turns appears to mimic RNA synthesis in vivo more closely than transcription from either highly superhelical or linear DNA with regard to two criteria: preferential transcription of the region corresponding to early genes and sensitivity to repression by lambda cI protein. We suggest that the physical basis for the increased initiation of RNA chains from superhelical DNA is the fact that unwinding events are energetically favored on a DNA molecule with negative superhelical turns. Possible general mechanisms are: (a) RNA polymerase must unwind the DNA duplex as a prelude to initiation; (b) the DNA itself must assume a new conformation at the promoter site which requires an unwinding of the DNA duplex.

摘要

我们研究了具有不同超螺旋程度的闭环λ噬菌体DNA分子的体外RNA合成。在转录分析条件下，所检测的四种环状模板分别具有0、-50、-110和-160个超螺旋圈。我们发现，随着模板获得更多负超螺旋圈，RNA合成的总量增加。这种转录增加是由于RNA链起始更频繁所致。就两个标准而言，无超螺旋圈的环状DNA转录比高度超螺旋或线性DNA转录似乎更能模拟体内的RNA合成：对应于早期基因区域的优先转录以及对λcI蛋白抑制的敏感性。我们认为，超螺旋DNA增加RNA链起始的物理基础是，在具有负超螺旋圈的DNA分子上，解旋事件在能量上更有利。可能的一般机制为：(a) RNA聚合酶必须解旋DNA双链作为起始的前奏；(b) DNA本身必须在启动子位点呈现新的构象，这需要DNA双链解旋。

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本文引用的文献

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A super-coil model for nucleohistone.核组蛋白的超螺旋模型。

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