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. 2023 Mar;66(3):612-625.
doi: 10.1007/s11427-022-2199-1. Epub 2023 Jan 4.

An intricate regulation of WblA controlling production of silent tylosin analogues and abolishment of expressible nikkomycin

Yue Li #  1 Hanye Guan #  2 Jingjing Li #  2 Jihui Zhang  2 Yanyan Wang  2 Jine Li  2 Huarong Tan  3
Affiliations

An intricate regulation of WblA controlling production of silent tylosin analogues and abolishment of expressible nikkomycin

Yue Li et al. Sci China Life Sci. 2023 Mar.

Abstract

Genome sequencing has revealed that actinomycetes possess the potential to produce many more secondary metabolites than previously thought. The existing challenge is to devise efficient methods to activate these silent biosynthetic gene clusters (BGCs). In Streptomyces ansochromogenes, disruption of wblA, a pleiotropic regulatory gene, activated the expression of cryptic tylosin analogues and abolished nikkomycin production simultaneously. Overexpressing pathway-specific regulatory genes tylR1 and tylR2 can also trigger the biosynthesis of silent tylosin analogues, in which TylR1 exerted its function via enhancing tylR2 expression. Bacterial one-hybrid system experiments unveiled that WblA directly inhibits the transcription of tylR1 and tylR2 to result in the silence of tylosin analogues BGC. Furthermore, WblA can activate the nikkomycin production through up-regulating the transcription of pleiotropic regulatory gene adpA. More interestingly, AdpA can activate sanG (an activator gene in nikkomycin BGC) but repress wblA. Our studies provide a valuable insight into the complex functions of pleiotropic regulators.

Keywords: Streptomyces ansochromogenes; pleiotropic regulatory gene; secondary metabolite biosynthesis; silent gene cluster; tylosin analogues; wblA.

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