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变形链球菌甲酰四氢叶酸合成酶突变体的遗传与生理学分析

Genetic and physiologic analysis of a formyl-tetrahydrofolate synthetase mutant of Streptococcus mutans.

作者信息

Crowley P J, Gutierrez J A, Hillman J D, Bleiweis A S

机构信息

Department of Oral Biology, University of Florida, Gainesville 32610, USA.

出版信息

J Bacteriol. 1997 Mar;179(5):1563-72. doi: 10.1128/jb.179.5.1563-1572.1997.

DOI:10.1128/jb.179.5.1563-1572.1997
PMID:9045814
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC178867/
Abstract

Previously we reported that transposon Tn917 mutagenesis of Streptococcus mutans JH1005 yielded an isolate detective in its normal ability to produce a mutacin (P. J. Crowley, J. D. Hillman, and A. S. Bleiweis, abstr. D55, p. 258 in Abstracts of the 95th General Meeting of the American Society for Microbiology 1995, 1995). In this report we describe the recovery of the mutated gene by shotgun cloning. Sequence analysis of insert DNA adjacent to Tn917 revealed homology to the gene encoding formyl-tetrahydrofolate synthetase (Fhs) from both prokaryotic and eukaryotic sources. In many bacteria, Fhs catalyzes the formation of 10-formyl-tetrahydrofolate, which is used directly in purine biosynthesis and formylation of Met-tRNA and indirectly in the biosynthesis of methionine, serine, glycine, and thymine. Analysis of the fhs mutant grown anaerobically in a minimal medium demonstrated that the mutant had an absolute dependency only for adenine, although addition of methionine was necessary for normal growth. Coincidently it was discovered that the mutant was sensitive to acidic pH; it grew more slowly than the parent strain on complex medium at pH 5. Complementation of the mutant with an integration vector harboring a copy of fhs restored its ability to grow in minimal medium and at acidic pH as well as to produce mutacin. This represents the first characterization of Fhs in Streptococcus.

摘要

此前我们报道,变形链球菌JH1005经转座子Tn917诱变后产生了一株分离株,该分离株在产生变链菌素的正常能力方面存在缺陷(P. J. 克劳利、J. D. 希尔曼和A. S. 布莱维斯,摘要D55,第258页,载于《美国微生物学会1995年第95届年会摘要》,1995年)。在本报告中,我们描述了通过鸟枪法克隆回收突变基因的过程。对与Tn917相邻的插入DNA进行序列分析,发现其与原核和真核来源的编码甲酰四氢叶酸合成酶(Fhs)的基因具有同源性。在许多细菌中,Fhs催化10-甲酰四氢叶酸的形成,该物质直接用于嘌呤生物合成以及甲硫氨酸-tRNA的甲酰化,间接用于甲硫氨酸、丝氨酸、甘氨酸和胸腺嘧啶的生物合成。对在基本培养基中厌氧生长的fhs突变体进行分析表明,该突变体仅对腺嘌呤有绝对依赖性,不过添加甲硫氨酸对其正常生长是必需的。巧合的是,发现该突变体对酸性pH敏感;在pH 5的复合培养基上,它比亲本菌株生长得更慢。用携带fhs拷贝的整合载体对该突变体进行互补,恢复了其在基本培养基和酸性pH下生长以及产生变链菌素的能力。这是对变形链球菌中Fhs的首次表征。

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