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Molecular structures and functions of pyocins S1 and S2 in Pseudomonas aeruginosa.铜绿假单胞菌中绿脓菌素S1和S2的分子结构与功能
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Evolutionary relationships among group II intron-encoded proteins and identification of a conserved domain that may be related to maturase function.II类内含子编码蛋白之间的进化关系以及可能与成熟酶功能相关的保守结构域的鉴定。
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自我剪接的I类和II类内含子编码一个新家族的同源(推测的)DNA内切核酸酶。

Self-splicing group I and group II introns encode homologous (putative) DNA endonucleases of a new family.

作者信息

Gorbalenya A E

机构信息

Institute of Poliomyelitis and Viral Encephalitides, Russian Academy of Medical Sciences, Moscow Region.

出版信息

Protein Sci. 1994 Jul;3(7):1117-20. doi: 10.1002/pro.5560030716.

DOI:10.1002/pro.5560030716
PMID:7920259
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2142905/
Abstract

A new family of protein domains consisting of 50-80 amino acid residues is described. It is composed of nearly 40 members, including domains encoded by plastid and phage group I introns; mitochondrial, plastid, and bacterial group II introns; eubacterial genomes and plasmids; and phages. The name "EX1HH-HX3H" was coined for both domain and family. It is based on 2 most prominent amino acid sequence motifs, each encompassing a pair of highly conserved histidine residues in a specific arrangement: EX1HH and HX3H. The "His" motifs often alternate with amino- and carboxy-terminal motifs of a new type of Zn-finger-like structure CX2,4CX29-54[CH]X2,3[CH]. The EX1HH-HX3H domain in eubacterial E2-type bacteriocins and in phage RB3 (wild variant of phage T4) product of the nrdB group I intron was reported to be essential for DNA endonuclease activity of these proteins. In other proteins, the EX1HH-HX3H domain is hypothesized to possess DNase activity as well. Presumably, this activity promotes movement (rearrangement) of group I and group II introns encoding the EX1HH-HX3H domain and other gene targets. In the case of Escherichia coli restrictase McrA and possibly several related proteins, it appears to mediate the restriction of alien DNA molecules.

摘要

本文描述了一个由50 - 80个氨基酸残基组成的新蛋白质结构域家族。它由近40个成员组成,包括质体和噬菌体I类内含子编码的结构域;线粒体、质体和细菌II类内含子;真细菌基因组和质粒;以及噬菌体。“EX1HH - HX3H”这个名称是为该结构域和家族创造的。它基于两个最突出的氨基酸序列基序,每个基序都包含一对以特定排列方式存在的高度保守的组氨酸残基:EX1HH和HX3H。“His”基序常常与一种新型锌指样结构CX2,4CX29 - 54[CH]X2,3[CH]的氨基端和羧基端基序交替出现。据报道,真细菌E2型细菌素以及噬菌体RB3(噬菌体T4的野生变体)中nrdB I类内含子产物中的EX1HH - HX3H结构域对于这些蛋白质的DNA内切酶活性至关重要。在其他蛋白质中,也推测EX1HH - HX3H结构域具有DNase活性。据推测,这种活性促进了编码EX1HH - HX3H结构域的I类和II类内含子以及其他基因靶点的移动(重排)。在大肠杆菌限制酶McrA以及可能的几种相关蛋白质的情况中,它似乎介导了对外源DNA分子的限制。