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链霉菌 NP1 的 argR 突变诱导霍洛霉素的产生和复杂的代谢变化。

Induction of holomycin production and complex metabolic changes by the argR mutation in Streptomyces clavuligerus NP1.

机构信息

Address correspondence to Keqian Yang,

出版信息

Appl Environ Microbiol. 2012 May;78(9):3431-41. doi: 10.1128/AEM.07699-11. Epub 2012 Feb 17.

DOI:10.1128/AEM.07699-11
PMID:22344669
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3346449/
Abstract

In bacteria, arginine biosynthesis is tightly regulated by a universally conserved regulator, ArgR, which regulates the expression of arginine biosynthetic genes, as well as other important genes. Disruption of argR in Streptomyces clavuligerus NP1 resulted in complex phenotypic changes in growth and antibiotic production levels. To understand the metabolic changes underlying the phenotypes, comparative proteomic studies were carried out between NP1 and its argR disruption mutant (designated CZR). In CZR, enzymes involved in holomycin biosynthesis were overexpressed; this is consistent with its holomycin overproduction phenotype. The effects on clavulanic acid (CA) biosynthesis are more complex. Several proteins from the CA cluster were moderately overexpressed, whereas several proteins from the 5S clavam biosynthetic cluster and from the paralog cluster of CA and 5S clavam biosynthesis were severely downregulated. Obvious changes were also detected in primary metabolism, which are mainly reflected in the altered expression levels of proteins involved in acetyl-coenzyme A (CoA) and cysteine biosynthesis. Since acetyl-CoA and cysteine are precursors for holomycin synthesis, overexpression of these proteins is consistent with the holomycin overproduction phenotype. The complex interplay between primary and secondary metabolism and between secondary metabolic pathways were revealed by these analyses, and the insights will guide further efforts to improve production levels of CA and holomycin in S. clavuligerus.

摘要

在细菌中,精氨酸生物合成受到普遍保守的调节剂 ArgR 的严格调控,ArgR 调节精氨酸生物合成基因以及其他重要基因的表达。链霉菌中 argR 的破坏导致生长和抗生素产生水平的复杂表型变化。为了了解表型背后的代谢变化,对 NP1 和其 argR 缺失突变体(命名为 CZR)进行了比较蛋白质组学研究。在 CZR 中,参与霍洛霉素生物合成的酶过表达;这与它的霍洛霉素过产生表型一致。对克拉维酸(CA)生物合成的影响更为复杂。CA 簇中的几个蛋白中度过表达,而 5S 克拉烷生物合成簇以及 CA 和 5S 克拉烷生物合成的旁系簇中的几个蛋白严重下调。初级代谢也发生了明显的变化,主要反映在参与乙酰辅酶 A(CoA)和半胱氨酸生物合成的蛋白表达水平的改变。由于乙酰 CoA 和半胱氨酸是霍洛霉素合成的前体,这些蛋白的过表达与霍洛霉素过产生表型一致。这些分析揭示了初级和次级代谢之间以及次级代谢途径之间的复杂相互作用,这些见解将指导进一步努力提高链霉菌中 CA 和霍洛霉素的生产水平。

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