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鉴定远藤氏放线菌中诺卡菌素 NA 生物合成基因簇。

Identification of nocobactin NA biosynthetic gene clusters in Nocardia farcinica.

机构信息

Department of Bioactive Molecules, National Institute of Infectious Diseases, Shinjuku, Tokyo 162-8640, Japan.

出版信息

J Bacteriol. 2011 Jan;193(2):441-8. doi: 10.1128/JB.00897-10. Epub 2010 Nov 19.

DOI:10.1128/JB.00897-10
PMID:21097631
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3019813/
Abstract

We identified the biosynthetic gene clusters of the siderophore nocobactin NA. The nbt clusters, which were discovered as genes highly homologous to the mycobactin biosynthesis genes by the genomic sequencing of Nocardia farcinica IFM 10152, consist of 10 genes separately located at two genomic regions. The gene organization of the nbt clusters and the predicted functions of the nbt genes, particularly the cyclization and epimerization domains, were in good agreement with the chemical structure of nocobactin NA. Disruptions of the nbtA and nbtE genes, respectively, reduced and abolished the productivity of nocobactin NA. The heterologous expression of the nbtS gene revealed that this gene encoded a salicylate synthase. These results indicate that the nbt clusters are responsible for the biosynthesis of nocobactin NA. We also found putative IdeR-binding sequences upstream of the nbtA, -G, -H, -S, and -T genes, whose expression was more than 10-fold higher in the low-iron condition than in the high-iron condition. These results suggest that nbt genes are regulated coordinately by IdeR protein in an iron-dependent manner. The ΔnbtE mutant was found to be impaired in cytotoxicity against J774A.1 cells, suggesting that nocobactin NA production is required for virulence of N. farcinica.

摘要

我们鉴定了铁载体诺卡菌素 NA 的生物合成基因簇。通过对诺卡氏放线菌 IFM 10152 的基因组测序,发现 nbt 簇是与分枝杆菌生素生物合成基因高度同源的基因,由分别位于两个基因组区域的 10 个基因组成。nbt 簇的基因组织和 nbt 基因的预测功能,特别是环化和差向异构化结构域,与诺卡菌素 NA 的化学结构非常吻合。nbtA 和 nbtE 基因的中断分别降低和消除了诺卡菌素 NA 的产量。nbtS 基因的异源表达表明该基因编码水杨酸合酶。这些结果表明 nbt 簇负责诺卡菌素 NA 的生物合成。我们还发现 nbtA、-G、-H、-S 和 -T 基因上游存在推定的 IdeR 结合序列,在低铁条件下,这些基因的表达比高铁条件下高出 10 倍以上。这些结果表明 nbt 基因受 IdeR 蛋白的协调调控,依赖于铁的水平。发现 ΔnbtE 突变体在对 J774A.1 细胞的细胞毒性方面受损,表明诺卡菌素 NA 的产生对于诺卡氏放线菌的毒力是必需的。

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