Molecular Dissection of the Glutamine Synthetase-GlnR Nitrogen Regulatory Circuitry in Gram-positive Bacteria

Overview

Journal Nat Commun

Specialty Biology

Date 2022 Jul 1

PMID 35778410

Authors

Brady A Travis

Jared V Peck

Raul Salinas

Brandon Dopkins

Nicholas Lent

Viet D Nguyen

Mario J Borgnia

Richard G Brennan

Maria A Schumacher

Affiliations

Soon will be listed here.

Abstract

How bacteria sense and respond to nitrogen levels are central questions in microbial physiology. In Gram-positive bacteria, nitrogen homeostasis is controlled by an operon encoding glutamine synthetase (GS), a dodecameric machine that assimilates ammonium into glutamine, and the GlnR repressor. GlnR detects nitrogen excess indirectly by binding glutamine-feedback-inhibited-GS (FBI-GS), which activates its transcription-repression function. The molecular mechanisms behind this regulatory circuitry, however, are unknown. Here we describe biochemical and structural analyses of GS and FBI-GS-GlnR complexes from pathogenic and non-pathogenic Gram-positive bacteria. The structures show FBI-GS binds the GlnR C-terminal domain within its active-site cavity, juxtaposing two GlnR monomers to form a DNA-binding-competent GlnR dimer. The FBI-GS-GlnR interaction stabilizes the inactive GS conformation. Strikingly, this interaction also favors a remarkable dodecamer to tetradecamer transition in some GS, breaking the paradigm that all bacterial GS are dodecamers. These data thus unveil unique structural mechanisms of transcription and enzymatic regulation.

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