导致对微菌素J25产生抗性的细菌RNA聚合酶突变。

Mutations of bacterial RNA polymerase leading to resistance to microcin j25.

作者信息

Yuzenkova Julia, Delgado Monica, Nechaev Sergei, Savalia Dhruti, Epshtein Vitaly, Artsimovitch Irina, Mooney Rachel A, Landick Robert, Farias Ricardo N, Salomon Raul, Severinov Konstantin

机构信息

Department of Genetics, Waksman Institute, Piscataway, New Jersey 08854, USA.

出版信息

J Biol Chem. 2002 Dec 27;277(52):50867-75. doi: 10.1074/jbc.M209425200. Epub 2002 Oct 24.

DOI:10.1074/jbc.M209425200

PMID:12401787

Abstract

A mutation in the conserved segment of the rpoC gene, which codes for the largest RNA polymerase (RNAP) subunit, beta', was found to make Escherichia coli cells resistant to microcin J25 (MccJ25), a bactericidal 21-amino acid peptide active against Gram-negative bacteria (Delgado, M. A., Rintoul, M. R., Farias, R. N., and Salomon, R. A. (2001) J. Bacteriol. 183, 4543-4550). Here, we report that mutant RNAP prepared from MccJ25-resistant cells, but not the wild-type RNAP, is resistant to MccJ25 in vitro, thus establishing that RNAP is a true cellular target of MccJ25. We also report the isolation of additional rpoC mutations that lead to MccJ25 resistance in vivo and in vitro. The new mutations affect beta' amino acids in evolutionarily conserved segments G, G', and F and are exposed into the RNAP secondary channel, a narrow opening that connects the enzyme surface with the catalytic center. We also report that previously known rpoB (RNAP beta subunit) mutations that lead to streptolydigin resistance cause resistance to MccJ25. We hypothesize that MccJ25 inhibits transcription by binding in RNAP secondary channel and blocking substrate access to the catalytic center.

摘要

编码最大RNA聚合酶（RNAP）亚基β'的rpoC基因保守区段发生突变，使得大肠杆菌细胞对微菌素J25（MccJ25）产生抗性，微菌素J25是一种对革兰氏阴性菌有活性的21个氨基酸的杀菌肽（德尔加多，M.A.，林图尔，M.R.，法里亚斯，R.N.，和萨洛蒙，R.A.（2001年）《细菌学杂志》183，4543 - 4550）。在此，我们报告从对MccJ25有抗性的细胞制备的突变型RNAP，而非野生型RNAP，在体外对MccJ25有抗性，从而确定RNAP是MccJ25真正的细胞靶点。我们还报告了另外一些rpoC突变的分离情况，这些突变在体内和体外都导致对MccJ25产生抗性。新的突变影响进化保守区段G、G'和F中的β'氨基酸，且这些氨基酸暴露于RNAP二级通道，该通道是连接酶表面与催化中心的一个狭窄开口。我们还报告，先前已知的导致对链霉溶菌素产生抗性的rpoB（RNAPβ亚基）突变会导致对MccJ25产生抗性。我们推测MccJ25通过结合在RNAP二级通道并阻止底物进入催化中心来抑制转录。

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导致对微菌素J25产生抗性的细菌RNA聚合酶突变。

Mutations of bacterial RNA polymerase leading to resistance to microcin j25.

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