Chromatin Mapping Identifies BasR, a Key Regulator of Bacteria-triggered Production of Fungal Secondary Metabolites

Overview

Journal Elife

Specialty Biology

Date 2018 Oct 13

PMID 30311911

Citations 28

Authors

Juliane Fischer

Sebastian Y Muller

Tina Netzker

Nils Jager

Agnieszka Gacek-Matthews

Kirstin Scherlach

Maria C Stroe

Maria Garcia-Altares

Francesco Pezzini

Hanno Schoeler

Michael Reichelt

Jonathan Gershenzon

Mario Kc Krespach

Ekaterina Shelest

Volker Schroeckh

Vito Valiante

Thorsten Heinzel

Christian Hertweck

Joseph Strauss

Axel A Brakhage

Affiliations

Soon will be listed here.

Abstract

The eukaryotic epigenetic machinery can be modified by bacteria to reprogram the response of eukaryotes during their interaction with microorganisms. We discovered that the bacterium triggered increased chromatin acetylation and thus activation of the silent secondary metabolism gene cluster in the fungus . Using this model, we aim understanding mechanisms of microbial communication based on bacteria-triggered chromatin modification. Using genome-wide ChIP-seq analysis of acetylated histone H3, we uncovered the unique chromatin landscape in upon co-cultivation with and relate changes in the acetylation to that in the fungal transcriptome. Differentially acetylated histones were detected in genes involved in secondary metabolism, in amino acid and nitrogen metabolism, in signaling, and encoding transcription factors. Further molecular analyses identified the Myb-like transcription factor BasR as the regulatory node for transduction of the bacterial signal in the fungus and show its function is conserved in other species.

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