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大肠杆菌一种需要D-谷氨酸的突变体的特性

Properties of a D-glutamic acid-requiring mutant of Escherichia coli.

作者信息

Lugtenberg E J, Wijsman H J, van Zaane D

出版信息

J Bacteriol. 1973 May;114(2):499-506. doi: 10.1128/jb.114.2.499-506.1973.

DOI:10.1128/jb.114.2.499-506.1973
PMID:4574691
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC251802/
Abstract

Some properties of a d-glutamic acid auxotroph of Escherichia coli B were studied. The mutant cells lysed in the absence of d-glutamic acid. Murein synthesis was impaired, accompanied by accumulation of uridine-5'-diphosphate-N-acetyl-muramyl-l-alanine (UDP-MurNac-l-Ala), as was shown by incubation of the mutant cells in a cell wall medium containing l-[(14)C]alanine. After incubation of the parental strain in a cell wall medium containing l-[(14)C]glutamic acid, the acid-precipitable radioactivity was lysozyme degradable to a large extent. Radioactive UDP-MurNac-pentapeptide was isolated from the l-[(14)C]glutamic acid-labeled parental cells. After hydrolysis, the label was exclusively present in glutamic acid, the majority of which had the stereo-isomeric d-configuration. Compared to the parent the mutant incorporated less l-[(14)C]glutamic acid from the wall medium into acid-precipitable material. Lysozyme degraded a smaller percentage of the acid-precipitable material of the mutant than of that of the parent. No radioactive uridine nucleotide precursors could be isolated from the mutant under these conditions. Attempts to identify the enzymatic defect in this mutant were not successful. The activity of UDP-MurNac-l-Ala:d-glutamic acid ligase (ADP; EC 6.3.2.9) (d-glutamic acid adding enzyme) is not affected by the mutation. Possible pathways for d-glutamic acid biosynthesis in E. coli B are discussed.

摘要

对大肠杆菌B的一种d - 谷氨酸营养缺陷型的某些特性进行了研究。突变细胞在没有d - 谷氨酸的情况下会裂解。胞壁质合成受到损害,伴随着尿苷 - 5'-二磷酸 - N - 乙酰 - 胞壁酰 - l - 丙氨酸(UDP - MurNac - l - Ala)的积累,这是通过将突变细胞在含有l - [(14)C]丙氨酸的细胞壁培养基中培养所显示的。将亲本菌株在含有l - [(14)C]谷氨酸的细胞壁培养基中培养后,酸沉淀放射性在很大程度上可被溶菌酶降解。从l - [(14)C]谷氨酸标记的亲本细胞中分离出放射性UDP - MurNac - 五肽。水解后,标记仅存在于谷氨酸中,其中大部分具有立体异构的d - 构型。与亲本相比,突变体从细胞壁培养基中摄取到酸沉淀物质中的l - [(14)C]谷氨酸较少。溶菌酶降解突变体的酸沉淀物质的百分比低于亲本。在这些条件下,无法从突变体中分离出放射性尿苷核苷酸前体。鉴定该突变体中酶缺陷的尝试未成功。UDP - MurNac - l - Ala:d - 谷氨酸连接酶(ADP;EC 6.3.2.9)(d - 谷氨酸添加酶)的活性不受该突变的影响。讨论了大肠杆菌B中d - 谷氨酸生物合成的可能途径。

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