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邻氨基苯甲酸合酶可为肠炎沙门氏菌中的硫胺素合成产生足够的磷酸核糖胺。

Anthranilate synthase can generate sufficient phosphoribosyl amine for thiamine synthesis in Salmonella enterica.

作者信息

Ramos I, Downs Diana M

机构信息

Department of Bacteriology, University of Wisconsin-Madison, 1550 Linden Drive, Madison, WI 53706, USA.

出版信息

J Bacteriol. 2003 Sep;185(17):5125-32. doi: 10.1128/JB.185.17.5125-5132.2003.

DOI:10.1128/JB.185.17.5125-5132.2003
PMID:12923085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC180985/
Abstract

In bacteria, the biosynthetic pathway for the hydroxymethyl pyrimidine moiety of thiamine shares metabolic intermediates with purine biosynthesis. The two pathways branch after the compound aminoimidazole ribotide. Past work has shown that the first common metabolite, phosphoribosyl amine (PRA), can be generated in the absence of the first enzyme in purine biosynthesis, PurF. PurF-independent PRA synthesis is dependent on both strain background and growth conditions. Standard genetic approaches have not identified a gene product singly responsible for PurF-independent PRA formation. This result has led to the hypothesis that multiple enzymes contribute to PRA synthesis, possibly as the result of side products from their dedicated reaction. A mutation that was able to restore PRA synthesis in a purF gnd mutant strain was identified and found to map in the gene coding for the TrpD subunit of the anthranilate synthase (AS)-phosphoribosyl transferase (PRT) complex. Genetic analyses indicated that wild-type AS-PRT was able to generate PRA in vivo and that the P362L mutant of TrpD facilitated this synthesis. In vitro activity assays showed that the mutant AS was able to generate PRA from ammonia and phosphoribosyl pyrophosphate. This work identifies a new reaction catalyzed by AS-PRT and considers it in the context of cellular thiamine synthesis and metabolic flexibility.

摘要

在细菌中,硫胺素羟甲基嘧啶部分的生物合成途径与嘌呤生物合成共享代谢中间体。这两条途径在氨基咪唑核糖核苷酸之后分支。过去的研究表明,第一种常见代谢物磷酸核糖胺(PRA)可以在嘌呤生物合成中不存在第一种酶PurF的情况下产生。不依赖PurF的PRA合成取决于菌株背景和生长条件。标准的遗传方法尚未鉴定出单独负责不依赖PurF的PRA形成的基因产物。这一结果导致了一种假设,即多种酶可能参与了PRA的合成,这可能是它们特定反应副产物的结果。鉴定出一个能够在purF gnd突变菌株中恢复PRA合成的突变,并发现它位于编码邻氨基苯甲酸合酶(AS)-磷酸核糖转移酶(PRT)复合物TrpD亚基的基因中。遗传分析表明野生型AS-PRT能够在体内产生PRA,并且TrpD的P362L突变体促进了这种合成。体外活性测定表明,突变型AS能够从氨和磷酸核糖焦磷酸生成PRA。这项工作鉴定了一种由AS-PRT催化的新反应,并在细胞硫胺素合成和代谢灵活性的背景下对其进行了研究。

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