1. The ubiquitous catechol moiety elicits siderophore and angucycline production in Streptomyces.
- Author
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van Bergeijk, Doris A., Elsayed, Somayah S., Du, Chao, Santiago, Isabel Nuñez, Roseboom, Anna M., Zhang, Le, Carrión, Victor J., Spaink, Herman P., and van Wezel, Gilles P.
- Subjects
STREPTOMYCES ,MOIETIES (Chemistry) ,CATECHOL ,GENE clusters ,NUCLEOTIDE sequencing ,CATECHIN - Abstract
Actinobacteria are a rich source of bioactive molecules, and genome sequencing has shown that the vast majority of their biosynthetic potential has yet to be explored. However, many of their biosynthetic gene clusters (BGCs) are poorly expressed in the laboratory, which prevents discovery of their cognate natural products. To exploit their full biosynthetic potential, better understanding of the signals that promote the expression of BGCs is needed. Here, we show that the human stress hormone epinephrine (adrenaline) elicits siderophore production by Actinobacteria. Catechol was established as the likely eliciting moiety, since similar responses were seen for catechol and for the catechol-containing molecules dopamine and catechin but not for related molecules. Exploration of the catechol-responsive strain Streptomyces sp. MBT84 using mass spectral networking revealed elicitation of a BGC that produces the angucycline glycosides aquayamycin, urdamycinone B and galtamycin C. Heterologous expression of the catechol-cleaving enzymes catechol 1,2-dioxygenase or catechol 2,3-dioxygenase counteracted the eliciting effect of catechol. Thus, our work identifies the ubiquitous catechol moiety as a novel elicitor of the expression of BGCs for specialized metabolites. The biosynthetic gene clusters of Actinobacteria are poorly expressed in the laboratory, necessitating a better understanding of the signals that promote their expression in order to exploit their full biosynthetic potential. Here, the authors show that the stress hormone epinephrine elicits the expression of biosynthetic gene clusters and influences the metabolism of Streptomyces, with the catechol moiety proving key to this response. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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