RecBCD酶和Chi重组热点作为自我与非自我的决定因素:神话和机制。

4区 生物学 Q2 Biochemistry, Genetics and Molecular Biology
Suriyen Subramaniam, Gerald R Smith
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引用次数: 3

摘要

当DNA通过转化、交配或噬菌体感染进入细菌细胞时,细菌面临挑战。它们是应该将这些DNA视为外来入侵物并将其摧毁,还是将其视为自己的一部分,并可能从整合新基因或等位基因中获益,从而获得有用的功能?人们经常说,短核苷酸序列Chi (5' GCTGGTGG 3')是大肠杆菌的RecBCD解旋酶核酸酶识别的同源基因重组热点,它使大肠杆菌能够将其DNA(自身)与其他DNA(非自身)区分开来,并破坏非自身DNA,并且Chi在大肠杆菌基因组中“过度代表”。我们在这里表明,这些后一种说法(教条)是不支持现有的证据。我们注意到Chi在远亲细菌种类和噬菌体中广泛存在和活动。我们说明了大肠杆菌和噬菌体P1基因组的多个高度非随机特征,这些特征解释了Chi的高频率和基因组位置,这使我们提出P1选择Chi的重组增强,而大肠杆菌选择Chi的首选密码子。我们讨论了其他先前描述的涉及RecBCD的自我决定与非自我决定的机制,以及RecBCD对无法重组的DNA的破坏,无论是国外的还是国内的,有或没有Chi。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

RecBCD enzyme and Chi recombination hotspots as determinants of self vs. non-self: Myths and mechanisms.

RecBCD enzyme and Chi recombination hotspots as determinants of self vs. non-self: Myths and mechanisms.

RecBCD enzyme and Chi recombination hotspots as determinants of self vs. non-self: Myths and mechanisms.

RecBCD enzyme and Chi recombination hotspots as determinants of self vs. non-self: Myths and mechanisms.

Bacteria face a challenge when DNA enters their cells by transformation, mating, or phage infection. Should they treat this DNA as an invasive foreigner and destroy it, or consider it one of their own and potentially benefit from incorporating new genes or alleles to gain useful functions? It is frequently stated that the short nucleotide sequence Chi (5' GCTGGTGG 3'), a hotspot of homologous genetic recombination recognized by Escherichia coli's RecBCD helicase-nuclease, allows E. coli to distinguish its DNA (self) from any other DNA (non-self) and to destroy non-self DNA, and that Chi is "over-represented" in the E. coli genome. We show here that these latter statements (dogmas) are not supported by available evidence. We note Chi's wide-spread occurrence and activity in distantly related bacterial species and phages. We illustrate multiple, highly non-random features of the genomes of E. coli and coliphage P1 that account for Chi's high frequency and genomic position, leading us to propose that P1 selects for Chi's enhancement of recombination, whereas E. coli selects for the preferred codons in Chi. We discuss other, previously described mechanisms for self vs. non-self determination involving RecBCD and for RecBCD's destruction of DNA that cannot recombine, whether foreign or domestic, with or without Chi.

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来源期刊
Advances in Genetics
Advances in Genetics 生物-遗传学
CiteScore
5.70
自引率
0.00%
发文量
1
审稿时长
1 months
期刊介绍: Advances in Genetics presents an eclectic mix of articles of use to all human and molecular geneticists. They are written and edited by recognized leaders in the field and make this an essential series of books for anyone in the genetics field.
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