阿维链霉菌
阿维菌素
生物
链霉菌
电泳迁移率测定
调节器
生物化学
基因
毒力
转录调控
发起人
次生代谢
生物膜
放线菌素
抄写(语言学)
细胞生物学
基因表达调控
遗传学
响应调节器
化学
蛋白质亚单位
链霉菌科
调节基因
作者
Shuai Luo,Jianya Zhu,Hucheng Zhang,Ya-Qin Wen,Xiaojie Wang,Liang Chen,Lina Deng,Ming Yang
标识
DOI:10.1007/s00203-025-04576-w
摘要
Avermectins, macrocyclic lactones produced by Streptomyces avermitilis, serve as essential therapeutic and agrochemical agents. LuxR-type transcriptional regulators are multifunctional proteins known to orchestrate antibiotic biosynthesis alongside virulence modulation, biofilm dynamics, and host immune interactions. However, no prior studies have characterized LuxR-family proteins as direct regulators of avermectin biosynthesis. This study delineates the mechanism through which SAV111, a LuxR-family transcriptional activator, enhances avermectin biosynthesis. Batch fermentation of the SAV111-overexpressing strain demonstrated dual functionality: (1) significant upregulation of avermectin titers and (2) accelerated hyphal growth kinetics. Developmental profiling revealed precocious morphological differentiation in the overexpression strain compared to wild-type controls. Electrophoretic mobility shift assays confirmed direct binding of SAV111 to the aveA1 promoter, encoding the synthase catalytic subunit within the pathway of avermectin biosynthetic. Transcriptional activation of aveA1 represents the primary mechanism underlying SAV111-mediated avermectin overproduction. These findings advance the understanding of LuxR-family regulatory networks in secondary metabolism and establish a molecular framework for engineering hyperproductive S. avermitilis strains.
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