阿维链霉菌
同色链霉菌
阿维菌素
生物
链霉菌
菲利平
基因
调节基因
遗传学
次生代谢
微生物学
生物化学
基因表达调控
生物合成
细菌
膜
解剖
作者
Kiyoko T. Miyamoto,Shigeru Kitani,Mamoru Komatsu,Haruo Ikeda,Takuya Nihira
出处
期刊:Microbiology
[Microbiology Society]
日期:2011-05-27
卷期号:157 (8): 2266-2275
被引量:33
标识
DOI:10.1099/mic.0.048371-0
摘要
The γ-butyrolactone autoregulator receptor has been shown to control secondary metabolism and/or morphological differentiation across many Streptomyces species. Streptomyces avermitilis produces an important anthelmintic agent (avermectin) and two further polyketide antibiotics, filipin and oligomycin. Genomic analysis of S. avermitilis revealed that this micro-organism has the clustered putative autoregulator receptor genes distant from the antibiotic biosynthetic gene clusters. Here, we describe the characterization of avaR3, one of the clustered receptor genes, which encodes a protein containing an extra stretch of amino acid residues that has not been found in the family of autoregulator receptors. Disruption of avaR3 resulted in markedly decreased production of avermectins, with delayed expression of avermectin biosynthetic genes, suggesting that AvaR3 positively controls the avermectin biosynthetic genes. Moreover, the disruption caused increased production of filipin without any changes in the transcriptional profile of the filipin biosynthetic genes, suggesting that filipin production is indirectly controlled by AvaR3. The avaR3 disruptant displayed fragmented growth in liquid culture and conditional morphological defects on solid medium. These findings demonstrated that AvaR3 acts as a global regulator that controls antibiotic production and cell morphology.
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