Characterization of a Salmonella sugar kinase essential for the utilization of fructose-asparagine.

Canadian journal of biochemistry and cell biology = Revue canadienne de biochimie et biologie cellulaire Pub Date : 2017-04-01 DOI:10.1139/bcb-2016-0138

P. Biswas, E. Behrman, V. Gopalan

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引用次数: 7

Abstract

Salmonella can utilize fructose-asparagine (F-Asn), a naturally occurring Amadori product, as its sole carbon and nitrogen source. Conversion of F-Asn to the common intermediates glucose-6-phosphate, aspartate, and ammonia was predicted to involve the sequential action of an asparaginase, a kinase, and a deglycase. Mutants lacking the deglycase are highly attenuated in mouse models of intestinal inflammation owing to the toxic build-up of the deglycase substrate. The limited distribution of this metabolic pathway in the animal gut microbiome raises the prospects for antibacterial discovery. We report the biochemical characterization of the kinase that was expected to transform fructose-aspartate to 6-phosphofructose-aspartate during F-Asn utilization. In addition to confirming its anticipated function, we determined through studies of fructose-aspartate analogues that this kinase exhibits a substrate-specificity with greater tolerance to changes to the amino acid (including the d-isomer of aspartate) than to the sugar.

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利用果糖-天冬酰胺必需的沙门氏菌糖激酶的鉴定。

沙门氏菌可以利用果糖-天冬酰胺(F-Asn)，一种天然存在的Amadori产品，作为其唯一的碳和氮来源。预计F-Asn转化为常见中间体葡萄糖-6-磷酸、天冬氨酸和氨，涉及一个天冬酰胺酶、一个激酶和一个脱糖酶的顺序作用。由于脱糖苷底物的毒性积聚，缺乏脱糖苷的突变体在小鼠肠道炎症模型中高度减弱。这种代谢途径在动物肠道微生物群中的有限分布提高了抗菌发现的前景。我们报道了在F-Asn利用过程中预期将果糖-天冬氨酸转化为6-磷酸果糖-天冬氨酸的激酶的生化特性。除了证实其预期的功能外，我们通过对果糖-天冬氨酸类似物的研究确定，这种激酶对氨基酸(包括天冬氨酸的d-异构体)的变化具有比糖更大的耐受性，具有底物特异性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Canadian journal of biochemistry and cell biology = Revue canadienne de biochimie et biologie cellulaire

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