阿维链霉菌
链霉菌
弗氏链霉菌
丁烯内酯
生物
阿维菌素
链霉菌科
细菌
生物化学
抗寄生虫的
生物合成
立体化学
微生物学
放线菌
化学
基因
植物
遗传学
病理
解剖
医学
作者
Shigeru Kitani,Kiyoko T. Miyamoto,Satoshi Takamatsu,Elisa Herawati,Hiroyuki Iguchi,Kouhei Nishitomi,Miho Uchida,Tohru Nagamitsu,Satoshi Ōmura,Haruo Ikeda,Takuya Nihira
标识
DOI:10.1073/pnas.1113908108
摘要
Gram-positive bacteria of the genus Streptomyces are industrially important microorganisms, producing >70% of commercially important antibiotics. The production of these compounds is often regulated by low-molecular-weight bacterial hormones called autoregulators. Although 60% of Streptomyces strains may use γ-butyrolactone–type molecules as autoregulators and some use furan-type molecules, little is known about the signaling molecules used to regulate antibiotic production in many other members of this genus. Here, we purified a signaling molecule (avenolide) from Streptomyces avermitilis —the producer of the important anthelmintic agent avermectin with annual world sales of $850 million—and determined its structure, including stereochemistry, by spectroscopic analysis and chemical synthesis as (4 S ,10 R )-10-hydroxy-10-methyl-9-oxo-dodec-2-en-1,4-olide, a class of Streptomyces autoregulator. Avenolide is essential for eliciting avermectin production and is effective at nanomolar concentrations with a minimum effective concentration of 4 nM. The aco gene of S. avermitilis, which encodes an acyl-CoA oxidase, is required for avenolide biosynthesis, and homologs are also present in Streptomyces fradiae , Streptomyces ghanaensis , and Streptomyces griseoauranticus , suggesting that butenolide-type autoregulators may represent a widespread and another class of Streptomyces autoregulator involved in regulating antibiotic production.
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