Perturbed N-glycosylation of Halobacterium Salinarum Archaellum Filaments Leads to Filament Bundling and Compromised Cell Motility

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Jul 11

PMID 38992036

Authors

Shahar Sofer

Zlata Vershinin

Leen Mashni

Ran Zalk

Anat Shahar

Jerry Eichler

Iris Grossman-Haham

Affiliations

Soon will be listed here.

Abstract

The swimming device of archaea-the archaellum-presents asparagine (N)-linked glycans. While N-glycosylation serves numerous roles in archaea, including enabling their survival in extreme environments, how this post-translational modification contributes to cell motility remains under-explored. Here, we report the cryo-EM structure of archaellum filaments from the haloarchaeon Halobacterium salinarum, where archaellins, the building blocks of the archaellum, are N-glycosylated, and the N-glycosylation pathway is well-resolved. We further determined structures of archaellum filaments from two N-glycosylation mutant strains that generate truncated glycans and analyzed their motility. While cells from the parent strain exhibited unidirectional motility, the N-glycosylation mutant strain cells swam in ever-changing directions within a limited area. Although these mutant strain cells presented archaellum filaments that were highly similar in architecture to those of the parent strain, N-linked glycan truncation greatly affected interactions between archaellum filaments, leading to dramatic clustering of both isolated and cell-attached filaments. We propose that the N-linked tetrasaccharides decorating archaellins act as physical spacers that minimize the archaellum filament aggregation that limits cell motility.

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