DNA穿过细菌膜的易位。

Translocation of DNA across bacterial membranes.

作者信息

Dreiseikelmann B

机构信息

Mikrobiologie/Gentechnologie, Universität Bielefeld, Germany.

出版信息

Microbiol Rev. 1994 Sep;58(3):293-316. doi: 10.1128/mr.58.3.293-316.1994.

DOI:10.1128/mr.58.3.293-316.1994

PMID:7968916

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC372970/

Abstract

DNA translocation across bacterial membranes occurs during the biological processes of infection by bacteriophages, conjugative DNA transfer of plasmids, T-DNA transfer, and genetic transformation. The mechanism of DNA translocation in these systems is not fully understood, but during the last few years extensive data about genes and gene products involved in the translocation processes have accumulated. One reason for the increasing interest in this topic is the discussion about horizontal gene transfer and transkingdom sex. Analyses of genes and gene products involved in DNA transfer suggest that DNA is transferred through a protein channel spanning the bacterial envelope. No common model exists for DNA translocation during phage infection. Perhaps various mechanisms are necessary as a result of the different morphologies of bacteriophages. The DNA translocation processes during conjugation, T-DNA transfer, and transformation are more consistent and may even be compared to the excretion of some proteins. On the basis of analogies and homologies between the proteins involved in DNA translocation and protein secretion, a common basic model for these processes is presented.

摘要

DNA穿过细菌膜的转运发生在噬菌体感染、质粒的接合性DNA转移、T-DNA转移和遗传转化等生物学过程中。这些系统中DNA转运的机制尚未完全了解，但在过去几年中，已经积累了大量关于参与转运过程的基因和基因产物的数据。对这个话题兴趣日益增加的一个原因是关于水平基因转移和跨界性别的讨论。对参与DNA转移的基因和基因产物的分析表明，DNA是通过跨越细菌包膜的蛋白质通道进行转移的。噬菌体感染期间DNA转运不存在通用模型。由于噬菌体形态各异，可能需要各种不同的机制。接合、T-DNA转移和转化过程中的DNA转运过程更为一致，甚至可以与某些蛋白质的分泌相比较。基于参与DNA转运的蛋白质与蛋白质分泌之间的相似性和同源性，提出了这些过程的一个通用基本模型。

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