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Structural basis for synthase activation and cellulose modification in the E. coli Type II Bcs secretion system

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  • Itxaso Anso

    (UMR 5248
    European Institute of Chemistry and Biology (IECB)
    University of the Basque Country (UPV/EHU))

  • Samira Zouhir

    (UMR 5248
    European Institute of Chemistry and Biology (IECB)
    Université Paris-Saclay)

  • Thibault Géry Sana

    (UMR 5248
    European Institute of Chemistry and Biology (IECB))

  • Petya Violinova Krasteva

    (UMR 5248
    European Institute of Chemistry and Biology (IECB))

Abstract

Bacterial cellulosic polymers constitute a prevalent class of biofilm matrix exopolysaccharides that are synthesized by several types of bacterial cellulose secretion (Bcs) systems, which include conserved cyclic diguanylate (c-di-GMP)-dependent cellulose synthase modules together with diverse accessory subunits. In E. coli, the biogenesis of phosphoethanolamine (pEtN)-modified cellulose relies on the BcsRQABEFG macrocomplex, encompassing inner-membrane and cytosolic subunits, and an outer membrane porin, BcsC. Here, we use cryogenic electron microscopy to shed light on the molecular mechanisms of BcsA-dependent recruitment and stabilization of a trimeric BcsG pEtN-transferase for polymer modification, and a dimeric BcsF-dependent recruitment of an otherwise cytosolic BcsE2R2Q2 regulatory complex. We further demonstrate that BcsE, a secondary c-di-GMP sensor, can remain dinucleotide-bound and retain the essential-for-secretion BcsRQ partners onto the synthase even in the absence of direct c-di-GMP-synthase complexation, likely lowering the threshold for c-di-GMP-dependent synthase activation. Such activation-by-proxy mechanism could allow Bcs secretion system activity even in the absence of substantial intracellular c-di-GMP increase, and is reminiscent of other widespread synthase-dependent polysaccharide secretion systems where dinucleotide sensing and/or synthase stabilization are carried out by key co-polymerase subunits.

Suggested Citation

  • Itxaso Anso & Samira Zouhir & Thibault Géry Sana & Petya Violinova Krasteva, 2024. "Structural basis for synthase activation and cellulose modification in the E. coli Type II Bcs secretion system," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-53113-8
    DOI: 10.1038/s41467-024-53113-8
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    References listed on IDEAS

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    1. Jacob L. W. Morgan & Joanna Strumillo & Jochen Zimmer, 2013. "Crystallographic snapshot of cellulose synthesis and membrane translocation," Nature, Nature, vol. 493(7431), pages 181-186, January.
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    3. Preeti Verma & Ruoya Ho & Schuyler A. Chambers & Lynette Cegelski & Jochen Zimmer, 2024. "Insights into phosphoethanolamine cellulose synthesis and secretion across the Gram-negative cell envelope," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
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