Dual function of OmpM as outer membrane tether and nutrient uptake channel in diderm Firmicutes

Silale, Augustinas; Zhu, Yiling; Witwinowski, Jerzy; Smith, Robert E.; Newman, Kahlan E.; Bhamidimarri, Satya P.; Baslé, Arnaud; Khalid, Syma; Beloin, Christophe; Gribaldo, Simonetta; van den Berg, Bert

doi:10.1038/s41467-023-42601-y

Nat Commun

2023

DOI: 10.1038/s41467-023-42601-y

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Dual function of OmpM as outer membrane tether and nutrient uptake channel in diderm Firmicutes

Augustinas Silale,

Yiling Zhu,

Jerzy Witwinowski

et al.

Abstract: The outer membrane (OM) in diderm, or Gram-negative, bacteria must be tethered to peptidoglycan for mechanical stability and to maintain cell morphology. Most diderm phyla from the Terrabacteria group have recently been shown to lack well-characterised OM attachment systems, but instead have OmpM, which could represent an ancestral tethering system in bacteria. Here, we have determined the structure of the most abundant OmpM protein from Veillonella parvula (diderm Firmicutes) by single particle cryogenic elec… Show more

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2024

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Cited by 4 publications

References 104 publications

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Seeing is believing: Illuminating the Gram-negative outer membrane with molecular dynamics simulations

Gutishvili,

Yang,

Gumbart

2024

Current Opinion in Structural Biology

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Seeing is believing: Illuminating the Gram-negative outer membrane with molecular dynamics simulations

Gutishvili,

Yang,

Gumbart

2024

Current Opinion in Structural Biology

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Terrabacteria: redefining bacterial envelope diversity, biogenesis and evolution

Beaud Benyahia,

Taib,

Beloin

et al. 2024

Nat Rev Microbiol

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OmpA controls order in the outer membrane and shares the mechanical load

Benn,

Borrelli,

Prakaash

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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OmpA, a predominant outer membrane (OM) protein in Escherichia coli , affects virulence, adhesion, and bacterial OM integrity. However, despite more than 50 y of research, the molecular basis for the role of OmpA has remained elusive. In this study, we demonstrate that OmpA organizes the OM protein lattice and mechanically connects it to the cell wall (CW). Using gene fusions, atomic force microscopy, simulations, and microfluidics, we show that the β-barrel domain of OmpA is critical for maintaining the permeability barrier, but both the β-barrel and CW–binding domains are necessary to enhance the cell envelope’s strength. OmpA integrates the compressive properties of the OM protein lattice with the tensile strength of the CW, forming a mechanically robust composite that increases overall integrity. This coupling likely underpins the ability of the entire envelope to function as a cohesive, resilient structure, critical for the survival of bacteria.

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Dual function of OmpM as outer membrane tether and nutrient uptake channel in diderm Firmicutes

Cited by 4 publications

References 104 publications

Seeing is believing: Illuminating the Gram-negative outer membrane with molecular dynamics simulations

Seeing is believing: Illuminating the Gram-negative outer membrane with molecular dynamics simulations

Terrabacteria: redefining bacterial envelope diversity, biogenesis and evolution

OmpA controls order in the outer membrane and shares the mechanical load

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