The archaeal division protein CdvB1 assembles into polymers that are depolymerized by CdvC

Alberto Blanch Jover; Nicola De Franceschi; Daphna Fenel; Winfried Weissenhorn; Cees Dekker

doi:10.1002/1873-3468.14324

The archaeal division protein CdvB1 assembles into polymers that are depolymerized by CdvC

Alberto Blanch Jover, Nicola De Franceschi, Daphna Fenel, Winfried Weissenhorn, Cees Dekker^*

^*Corresponding author for this work

BN/Cees Dekker Lab

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

3 Citations (Scopus)

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Abstract

The Cdv proteins constitute the cell division system of the Crenarchaea, a machinery closely related to the ESCRT system of eukaryotes. Using a combination of TEM imaging and biochemical assays, we here present an in vitro study of Metallosphaera sedula CdvB1, the Cdv protein that is believed to play a major role in the constricting ring that drives cell division in the Crenarchaea. We show that CdvB1 self-assembles into filaments that are depolymerized by the Vps4-homolog ATPase CdvC. Furthermore, we find that CdvB1 binds to negatively charged lipid membranes and can be detached from the membrane by the action of CdvC. Our findings provide novel insight into one of the main components of the archaeal cell division machinery.

Original language	English
Pages (from-to)	958-969
Number of pages	12
Journal	FEBS Letters
Volume	596
Issue number	7
DOIs	https://doi.org/10.1002/1873-3468.14324
Publication status	Published - 2022

Keywords

Archaea
Cdv system
CdvB1
cell division
ESCRT-III

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10.1002/1873-3468.14324

FEBS Letters - 2022 - Blanch Jover - The archaeal division protein CdvB1 assembles into polymers that are depolymerized byFinal published version, 2.29 MBLicence: CC BY

Cite this

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title = "The archaeal division protein CdvB1 assembles into polymers that are depolymerized by CdvC",

abstract = "The Cdv proteins constitute the cell division system of the Crenarchaea, a machinery closely related to the ESCRT system of eukaryotes. Using a combination of TEM imaging and biochemical assays, we here present an in vitro study of Metallosphaera sedula CdvB1, the Cdv protein that is believed to play a major role in the constricting ring that drives cell division in the Crenarchaea. We show that CdvB1 self-assembles into filaments that are depolymerized by the Vps4-homolog ATPase CdvC. Furthermore, we find that CdvB1 binds to negatively charged lipid membranes and can be detached from the membrane by the action of CdvC. Our findings provide novel insight into one of the main components of the archaeal cell division machinery.",

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T1 - The archaeal division protein CdvB1 assembles into polymers that are depolymerized by CdvC

AU - Blanch Jover, Alberto

AU - De Franceschi, Nicola

AU - Fenel, Daphna

AU - Weissenhorn, Winfried

AU - Dekker, Cees

PY - 2022

Y1 - 2022

N2 - The Cdv proteins constitute the cell division system of the Crenarchaea, a machinery closely related to the ESCRT system of eukaryotes. Using a combination of TEM imaging and biochemical assays, we here present an in vitro study of Metallosphaera sedula CdvB1, the Cdv protein that is believed to play a major role in the constricting ring that drives cell division in the Crenarchaea. We show that CdvB1 self-assembles into filaments that are depolymerized by the Vps4-homolog ATPase CdvC. Furthermore, we find that CdvB1 binds to negatively charged lipid membranes and can be detached from the membrane by the action of CdvC. Our findings provide novel insight into one of the main components of the archaeal cell division machinery.

AB - The Cdv proteins constitute the cell division system of the Crenarchaea, a machinery closely related to the ESCRT system of eukaryotes. Using a combination of TEM imaging and biochemical assays, we here present an in vitro study of Metallosphaera sedula CdvB1, the Cdv protein that is believed to play a major role in the constricting ring that drives cell division in the Crenarchaea. We show that CdvB1 self-assembles into filaments that are depolymerized by the Vps4-homolog ATPase CdvC. Furthermore, we find that CdvB1 binds to negatively charged lipid membranes and can be detached from the membrane by the action of CdvC. Our findings provide novel insight into one of the main components of the archaeal cell division machinery.

KW - Archaea

KW - Cdv system

KW - CdvB1

KW - cell division

KW - ESCRT-III

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U2 - 10.1002/1873-3468.14324

DO - 10.1002/1873-3468.14324

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JO - FEBS Letters

JF - FEBS Letters

IS - 7

ER -

The archaeal division protein CdvB1 assembles into polymers that are depolymerized by CdvC

Abstract

Keywords

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Looking Back To Move Forward: Studying the Ancient Archaeal Cdv Cell Division Machinery for Synthetic Cells

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