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Activation and Identification of a Griseusin Cluster in Streptomyces sp. CA-256286 by Employing Transcriptional Regulators and Multi-Omics Methods

Charlotte Beck, Tetiana Gren, Francisco Javier Ortiz‐López, Tue Sparholt Jørgensen, Daniel Carretero‐Molina, Jesús Martín Serrano, José R. Tormo, Daniel Oves‐Costales, Eftychia Eva Kontou, Omkar S. Mohite, Erik Mingyar, Evi Stegmann, Olga Genilloud, Tilmann Weber

2021Molecules23 citationsDOIOpen Access PDF

Abstract

Streptomyces are well-known producers of a range of different secondary metabolites, including antibiotics and other bioactive compounds. Recently, it has been demonstrated that “silent” biosynthetic gene clusters (BGCs) can be activated by heterologously expressing transcriptional regulators from other BGCs. Here, we have activated a silent BGC in Streptomyces sp. CA-256286 by overexpression of a set of SARP family transcriptional regulators. The structure of the produced compound was elucidated by NMR and found to be an N-acetyl cysteine adduct of the pyranonaphtoquinone polyketide 3′-O-α-d-forosaminyl-(+)-griseusin A. Employing a combination of multi-omics and metabolic engineering techniques, we identified the responsible BGC. These methods include genome mining, proteomics and transcriptomics analyses, in combination with CRISPR induced gene inactivations and expression of the BGC in a heterologous host strain. This work demonstrates an easy-to-implement workflow of how silent BGCs can be activated, followed by the identification and characterization of the produced compound, the responsible BGC, and hints of its biosynthetic pathway.

Topics & Concepts

StreptomycesGene clusterComputational biologyGeneBiologyHeterologous expressionPolyketideTranscriptomeProteomicsGeneticsGene expressionBacteriaBiosynthesisRecombinant DNAMicrobial Natural Products and BiosynthesisMarine Sponges and Natural ProductsSynthetic Organic Chemistry Methods
Activation and Identification of a Griseusin Cluster in Streptomyces sp. CA-256286 by Employing Transcriptional Regulators and Multi-Omics Methods | Litcius