Unusual cell surfaces, pili, and archaella of Thermoplasmatales archaea

Matthew C Gaines; Michail N Isupov; Mathew McLaren; Risat Ul Haque; Alejandra Recalde; Rafael Bargiela; Vicki A M Gold; Sonja-Verena Albers; Peter N Golyshin; Olga V Golyshina; Bertram Daum

doi:10.1093/ismejo/wraf176

Unusual cell surfaces, pili, and archaella of Thermoplasmatales archaea

Matthew C Gaines, Michail N Isupov, Mathew McLaren, Risat Ul Haque, Alejandra Recalde, Rafael Bargiela, Vicki A M Gold, Sonja-Verena Albers, Peter N Golyshin, Olga V Golyshina, Bertram Daum

School of Environmental & Natural Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Archaea of the order Thermoplasmatales push the boundaries of our current knowledge of prokaryotic life. They show distinct cellular plasticity, heterogenous cell morphologies, and lack a paracrystalline S-layer. As the S-layer has previously been implicated in acting as a stator scaffold for filaments driving cellular propulsion, particularly archaella, we asked whether the absence of an S-layer precludes the formation of functional archaella or pili in Thermoplasmatales. Using cryoEM, we investigated the two Thermoplasmatales species Cuniculiplasma divulgatum and Oxyplasma meridianum. We found that these species indeed generate pili and archaella, and that the latter likely function in cellular propulsion. Whereas C. divulgatum produces pili with terminal hooks using a unique assembly machinery, O. meridianum generates wide, "barbed" archaella with an unusually high degree of glycosylation. Our results show that, for the generation of functional archaella and pili, a canonical S-layer is not necessary.

Original language	English
Journal	The ISME Journal
Volume	19
Issue number	1
Early online date	13 Aug 2025
DOIs	https://doi.org/10.1093/ismejo/wraf176
Publication status	E-pub ahead of print - 13 Aug 2025

Keywords

Archaeal Proteins/metabolism
Cell Membrane/ultrastructure
Cryoelectron Microscopy
Fimbriae, Bacterial
Glycosylation
Membrane Glycoproteins/metabolism
Thermoplasmales/ultrastructure

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title = "Unusual cell surfaces, pili, and archaella of Thermoplasmatales archaea",

abstract = "Archaea of the order Thermoplasmatales push the boundaries of our current knowledge of prokaryotic life. They show distinct cellular plasticity, heterogenous cell morphologies, and lack a paracrystalline S-layer. As the S-layer has previously been implicated in acting as a stator scaffold for filaments driving cellular propulsion, particularly archaella, we asked whether the absence of an S-layer precludes the formation of functional archaella or pili in Thermoplasmatales. Using cryoEM, we investigated the two Thermoplasmatales species Cuniculiplasma divulgatum and Oxyplasma meridianum. We found that these species indeed generate pili and archaella, and that the latter likely function in cellular propulsion. Whereas C. divulgatum produces pili with terminal hooks using a unique assembly machinery, O. meridianum generates wide, {"}barbed{"} archaella with an unusually high degree of glycosylation. Our results show that, for the generation of functional archaella and pili, a canonical S-layer is not necessary.",

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T1 - Unusual cell surfaces, pili, and archaella of Thermoplasmatales archaea

AU - Gaines, Matthew C

AU - Isupov, Michail N

AU - McLaren, Mathew

AU - Haque, Risat Ul

AU - Recalde, Alejandra

AU - Bargiela, Rafael

AU - Gold, Vicki A M

AU - Albers, Sonja-Verena

AU - Golyshin, Peter N

AU - Golyshina, Olga V

AU - Daum, Bertram

N1 - © The Author(s) 2025. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.

PY - 2025/8/13

Y1 - 2025/8/13

N2 - Archaea of the order Thermoplasmatales push the boundaries of our current knowledge of prokaryotic life. They show distinct cellular plasticity, heterogenous cell morphologies, and lack a paracrystalline S-layer. As the S-layer has previously been implicated in acting as a stator scaffold for filaments driving cellular propulsion, particularly archaella, we asked whether the absence of an S-layer precludes the formation of functional archaella or pili in Thermoplasmatales. Using cryoEM, we investigated the two Thermoplasmatales species Cuniculiplasma divulgatum and Oxyplasma meridianum. We found that these species indeed generate pili and archaella, and that the latter likely function in cellular propulsion. Whereas C. divulgatum produces pili with terminal hooks using a unique assembly machinery, O. meridianum generates wide, "barbed" archaella with an unusually high degree of glycosylation. Our results show that, for the generation of functional archaella and pili, a canonical S-layer is not necessary.

AB - Archaea of the order Thermoplasmatales push the boundaries of our current knowledge of prokaryotic life. They show distinct cellular plasticity, heterogenous cell morphologies, and lack a paracrystalline S-layer. As the S-layer has previously been implicated in acting as a stator scaffold for filaments driving cellular propulsion, particularly archaella, we asked whether the absence of an S-layer precludes the formation of functional archaella or pili in Thermoplasmatales. Using cryoEM, we investigated the two Thermoplasmatales species Cuniculiplasma divulgatum and Oxyplasma meridianum. We found that these species indeed generate pili and archaella, and that the latter likely function in cellular propulsion. Whereas C. divulgatum produces pili with terminal hooks using a unique assembly machinery, O. meridianum generates wide, "barbed" archaella with an unusually high degree of glycosylation. Our results show that, for the generation of functional archaella and pili, a canonical S-layer is not necessary.

KW - Archaeal Proteins/metabolism

KW - Cell Membrane/ultrastructure

KW - Cryoelectron Microscopy

KW - Fimbriae, Bacterial

KW - Glycosylation

KW - Membrane Glycoproteins/metabolism

KW - Thermoplasmales/ultrastructure

U2 - 10.1093/ismejo/wraf176

DO - 10.1093/ismejo/wraf176

M3 - Article

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SN - 1751-7362

VL - 19

JO - The ISME Journal

JF - The ISME Journal

IS - 1

ER -

Unusual cell surfaces, pili, and archaella of Thermoplasmatales archaea

Abstract

Keywords

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