Distinct Heterochromatin-like Domains Promote Transcriptional Memory and Silence Parasitic Genetic Elements in Bacteria

Overview

Journal EMBO J

Specialties Biotechnology
Molecular Biology

Date 2021 Dec 28

PMID 34961960

Citations 7

Authors

Haley M Amemiya

Thomas J Goss

Taylor M Nye

Rebecca L Hurto

Lyle A Simmons

Peter L Freddolino

Affiliations

Soon will be listed here.

Abstract

There is increasing evidence that prokaryotes maintain chromosome structure, which in turn impacts gene expression. We recently characterized densely occupied, multi-kilobase regions in the E. coli genome that are transcriptionally silent, similar to eukaryotic heterochromatin. These extended protein occupancy domains (EPODs) span genomic regions containing genes encoding metabolic pathways as well as parasitic elements such as prophages. Here, we investigate the contributions of nucleoid-associated proteins (NAPs) to the structuring of these domains, by examining the impacts of deleting NAPs on EPODs genome-wide in E. coli and B. subtilis. We identify key NAPs contributing to the silencing of specific EPODs, whose deletion opens a chromosomal region for RNA polymerase binding at genes contained within that region. We show that changes in E. coli EPODs facilitate an extra layer of transcriptional regulation, which prepares cells for exposure to exotic carbon sources. Furthermore, we distinguish novel xenogeneic silencing roles for the NAPs Fis and Hfq, with the presence of at least one being essential for cell viability in the presence of domesticated prophages. Our findings reveal previously unrecognized mechanisms through which genomic architecture primes bacteria for changing metabolic environments and silences harmful genomic elements.

Citing Articles

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Spatio-temporal organization of the chromosome from base to cellular length scales.

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