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大肠杆菌中的硫胺素M基因座及其与羟乙基噻唑磷酸化的关系。

The thiM locus and its relation to phosphorylation of hydroxyethylthiazole in Escherichia coli.

作者信息

Mizote T, Nakayama H

机构信息

Department of Food and Nutrition, Yamaguchi Women's University, Japan.

出版信息

J Bacteriol. 1989 Jun;171(6):3228-32. doi: 10.1128/jb.171.6.3228-3232.1989.

DOI:10.1128/jb.171.6.3228-3232.1989
PMID:2542220
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC210041/
Abstract

A mutant of Escherichia coli lacking hydroxyethylthiazole kinase (EC 2.7.1.50) was produced by a further mutation of a temperature-sensitive, auxotrophic mutant for hydroxyethylthiazole. The parent cells possessed two distinct enzymes capable of phosphorylating hydroxyethylthiazole: one was hydroxyethylthiazole kinase, and the other was a phosphotransferase species that required p-nitrophenylphosphate as a phosphoryl donor. Osmotic shock fluid prepared from the mutant cells phosphorylated hydroxyethylthiazole to an extent comparable to that observed with shock fluid from the parent cells, whereas extracts from shocked cells were unable to catalyze the kinase reaction. Shock fluid from a mutant of the other type obtained as a reduced phosphatase activity against p-nitrophenylphosphate did not show any appreciable activity for the phosphotransferase reaction, while extracts from shocked cells showed full kinase activity. The former mutant had lost its ability to grow on hydroxyethylthiazole at high temperature, but the latter mutant still responded to it. It thus appears that the kinase is an enzyme which might play a role in the biosynthesis of thiamine PPi in situ. By conjugation and P1 transduction, a gene governing hydroxyethylthiazole kinase activity, for which we propose the designation thiM, was mapped on the chromosome close to thiD, a gene specifying phosphomethylpyrimidine kinase activity.

摘要

通过对羟乙基噻唑温度敏感型营养缺陷型突变体进行进一步突变,获得了一种缺乏羟乙基噻唑激酶(EC 2.7.1.50)的大肠杆菌突变体。亲本细胞拥有两种能够使羟乙基噻唑磷酸化的不同酶:一种是羟乙基噻唑激酶,另一种是需要对硝基苯磷酸作为磷酰基供体的磷酸转移酶。从突变体细胞制备的渗透休克液使羟乙基噻唑磷酸化的程度与亲本细胞休克液所观察到的程度相当,而休克细胞的提取物则无法催化激酶反应。从另一种类型的突变体获得的休克液,其对硝基苯磷酸的磷酸酶活性降低,对磷酸转移酶反应没有任何明显活性,而休克细胞的提取物则显示出完全的激酶活性。前一种突变体在高温下失去了在羟乙基噻唑上生长的能力,但后一种突变体仍对其有反应。因此,激酶似乎是一种可能在硫胺焦磷酸原位生物合成中起作用的酶。通过接合和P1转导,将一个控制羟乙基噻唑激酶活性的基因(我们提议将其命名为thiM)定位在染色体上靠近thiD的位置,thiD是一个指定磷酸甲基嘧啶激酶活性的基因。

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