根癌土壤杆菌groESL操纵子的热休克激活及反向重复序列的调控作用

Heat shock activation of the groESL operon of Agrobacterium tumefaciens and the regulatory roles of the inverted repeat.

作者信息

Segal G, Ron E Z

机构信息

Department of Molecular Microbiology and Biotechnology, The George S. Wise Faculty of Life Sciences, Tel-Aviv University, Israel.

出版信息

J Bacteriol. 1996 Jun;178(12):3634-40. doi: 10.1128/jb.178.12.3634-3640.1996.

DOI:10.1128/jb.178.12.3634-3640.1996

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC178137/

Abstract

Deletions were constructed in the conserved inverted repeat (IR) found in the groESL operon of Agrobacterium tumefaciens and in many other groE and dnaK operons and genes in eubacteria. These deletions affected the level of expression of the operon and the magnitude of its heat shock activation. The IR seems to operate at the DNA level, probably as an operator site that binds a repressor under non-heat shock conditions. The IR was also found to function at the mRNA level, since under non-heat shock conditions transcripts containing deletions of one side of the IR had longer half-lives than did transcripts containing the wild-type IR. Under heat shock conditions, the half-life of the mRNA was unaffected by this deletion because of heat shock-dependent cleavage. However, the groESL operon was found to be heat shock activated even after most of the IR was deleted. This observation, together with the fact that the groESL operon of A. tumefaciens was heat shock activated in Escherichia coli and vice versa, suggests that a heat shock promoter regulates the heat shock activation of this operon. The primary role of the IR appears to be in reducing the MRNA levels from this promoter under non-heat shock conditions.

摘要

在根癌土壤杆菌的groESL操纵子以及许多其他真细菌的groE和dnaK操纵子及基因中发现的保守反向重复序列（IR）被构建了缺失突变。这些缺失影响了操纵子的表达水平及其热休克激活的程度。IR似乎在DNA水平起作用，可能作为一个在非热休克条件下结合阻遏物的操纵位点。IR在mRNA水平也有功能，因为在非热休克条件下，含有IR一侧缺失的转录本比含有野生型IR的转录本半衰期更长。在热休克条件下，由于热休克依赖性切割，mRNA的半衰期不受此缺失的影响。然而，即使大部分IR被删除后，groESL操纵子仍被发现可被热休克激活。这一观察结果，连同根癌土壤杆菌的groESL操纵子在大肠杆菌中可被热休克激活，反之亦然这一事实，表明一个热休克启动子调节该操纵子的热休克激活。IR的主要作用似乎是在非热休克条件下降低来自该启动子的mRNA水平。

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