Morphology of the archaellar motor and associated cytoplasmic cone in Thermococcus kodakaraensis

Ariane Briegel; Catherine M. Oikonomou; Yi Wei Chang; Andreas Kjær; Audrey N. Huang; Ki Woo Kim; Debnath Ghosal; Hong H. Nguyen; Dorothy Kenny; Rachel R. Ogorzalek Loo; Robert P. Gunsalus; Grant J. Jensen

doi:10.15252/embr.201744070

Morphology of the archaellar motor and associated cytoplasmic cone in Thermococcus kodakaraensis

Ariane Briegel, Catherine M. Oikonomou, Yi Wei Chang, Andreas Kjær, Audrey N. Huang, Ki Woo Kim, Debnath Ghosal, Hong H. Nguyen, Dorothy Kenny, Rachel R. Ogorzalek Loo, Robert P. Gunsalus, Grant J. Jensen

Department of Forest Ecology and Protection

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28 Scopus citations

Abstract

Archaeal swimming motility is driven by archaella: rotary motors attached to long extracellular filaments. The structure of these motors, and particularly how they are anchored in the absence of a peptidoglycan cell wall, is unknown. Here, we use electron cryotomography to visualize the archaellar basal body in vivo in Thermococcus kodakaraensis KOD1. Compared to the homologous bacterial type IV pilus (T4P), we observe structural similarities as well as several unique features. While the position of the cytoplasmic ATPase appears conserved, it is not braced by linkages that extend upward through the cell envelope as in the T4P, but rather by cytoplasmic components that attach it to a large conical frustum up to 500 nm in diameter at its base. In addition to anchoring the lophotrichous bundle of archaella, the conical frustum associates with chemosensory arrays and ribosome-excluding material and may function as a polar organizing center for the coccoid cells.

Original language	English
Pages (from-to)	1660-1670
Number of pages	11
Journal	EMBO Reports
Volume	18
Issue number	9
DOIs	https://doi.org/10.15252/embr.201744070
State	Published - Sep 2017

Keywords

archaeal motility
archaella
electron cryotomography
flagella
Thermococcus kodakarensis

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title = "Morphology of the archaellar motor and associated cytoplasmic cone in Thermococcus kodakaraensis",

abstract = "Archaeal swimming motility is driven by archaella: rotary motors attached to long extracellular filaments. The structure of these motors, and particularly how they are anchored in the absence of a peptidoglycan cell wall, is unknown. Here, we use electron cryotomography to visualize the archaellar basal body in vivo in Thermococcus kodakaraensis KOD1. Compared to the homologous bacterial type IV pilus (T4P), we observe structural similarities as well as several unique features. While the position of the cytoplasmic ATPase appears conserved, it is not braced by linkages that extend upward through the cell envelope as in the T4P, but rather by cytoplasmic components that attach it to a large conical frustum up to 500 nm in diameter at its base. In addition to anchoring the lophotrichous bundle of archaella, the conical frustum associates with chemosensory arrays and ribosome-excluding material and may function as a polar organizing center for the coccoid cells.",

keywords = "archaeal motility, archaella, electron cryotomography, flagella, Thermococcus kodakarensis",

author = "Ariane Briegel and Oikonomou, {Catherine M.} and Chang, {Yi Wei} and Andreas Kj{\ae}r and Huang, {Audrey N.} and Kim, {Ki Woo} and Debnath Ghosal and Nguyen, {Hong H.} and Dorothy Kenny and {Ogorzalek Loo}, {Rachel R.} and Gunsalus, {Robert P.} and Jensen, {Grant J.}",

note = "Publisher Copyright: {\textcopyright} 2017 The Authors",

year = "2017",

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doi = "10.15252/embr.201744070",

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volume = "18",

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AU - Briegel, Ariane

AU - Oikonomou, Catherine M.

AU - Chang, Yi Wei

AU - Kjær, Andreas

AU - Huang, Audrey N.

AU - Kim, Ki Woo

AU - Ghosal, Debnath

AU - Nguyen, Hong H.

AU - Kenny, Dorothy

AU - Ogorzalek Loo, Rachel R.

AU - Gunsalus, Robert P.

AU - Jensen, Grant J.

PY - 2017/9

Y1 - 2017/9

N2 - Archaeal swimming motility is driven by archaella: rotary motors attached to long extracellular filaments. The structure of these motors, and particularly how they are anchored in the absence of a peptidoglycan cell wall, is unknown. Here, we use electron cryotomography to visualize the archaellar basal body in vivo in Thermococcus kodakaraensis KOD1. Compared to the homologous bacterial type IV pilus (T4P), we observe structural similarities as well as several unique features. While the position of the cytoplasmic ATPase appears conserved, it is not braced by linkages that extend upward through the cell envelope as in the T4P, but rather by cytoplasmic components that attach it to a large conical frustum up to 500 nm in diameter at its base. In addition to anchoring the lophotrichous bundle of archaella, the conical frustum associates with chemosensory arrays and ribosome-excluding material and may function as a polar organizing center for the coccoid cells.

AB - Archaeal swimming motility is driven by archaella: rotary motors attached to long extracellular filaments. The structure of these motors, and particularly how they are anchored in the absence of a peptidoglycan cell wall, is unknown. Here, we use electron cryotomography to visualize the archaellar basal body in vivo in Thermococcus kodakaraensis KOD1. Compared to the homologous bacterial type IV pilus (T4P), we observe structural similarities as well as several unique features. While the position of the cytoplasmic ATPase appears conserved, it is not braced by linkages that extend upward through the cell envelope as in the T4P, but rather by cytoplasmic components that attach it to a large conical frustum up to 500 nm in diameter at its base. In addition to anchoring the lophotrichous bundle of archaella, the conical frustum associates with chemosensory arrays and ribosome-excluding material and may function as a polar organizing center for the coccoid cells.

KW - archaeal motility

KW - archaella

KW - electron cryotomography

KW - flagella

KW - Thermococcus kodakarensis

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ER -

Morphology of the archaellar motor and associated cytoplasmic cone in Thermococcus kodakaraensis

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