ZapE is a novel cell division protein interacting with FtsZ and modulating the Z-ring dynamics

B.S. Marteyn; G. Karimova; A.K. Fenton; A.D. Gazi; N. West; L. Touqui; M.-C. Prevost; J.-M. Betton; O. Poyraz; D. Ladant; Kenn Gerdes; P.J. Sansonetti; C.M. Tang

doi:10.1128/mBio.00022-14

ZapE is a novel cell division protein interacting with FtsZ and modulating the Z-ring dynamics

B.S. Marteyn, G. Karimova, A.K. Fenton, A.D. Gazi, N. West, L. Touqui, M.-C. Prevost, J.-M. Betton, O. Poyraz, D. Ladant, Kenn Gerdes, P.J. Sansonetti, C.M. Tang

25 Citationer (Scopus)

Abstract

Bacterial cell division requires the formation of a mature divisome complex positioned at the midcell. The localization of the divisome complex is determined by the correct positioning, assembly, and constriction of the FtsZ ring (Z-ring). Z-ring constriction control remains poorly understood and (to some extent) controversial, probably due to the fact that this phenomenon is transient and controlled by numerous factors. Here, we characterize ZapE, a novel ATPase found in Gram-negative bacteria, which is required for growth under conditions of low oxygen, while loss of zapE results in temperature-dependent elongation of cell shape. We found that ZapE is recruited to the Z-ring during late stages of the cell division process and correlates with constriction of the Z-ring. Overexpression or inactivation of zapE leads to elongation of Escherichia coli and affects the dynamics of the Z-ring during division. In vitro, ZapE destabilizes FtsZ polymers in an ATP-dependent manner. © 2014 Marteyn et al.

Originalsprog	Engelsk
Artikelnummer	e00022-14
Tidsskrift	mBio
Vol/bind	5
Udgave nummer	2
Sider (fra-til)	1-10
Antal sider	10
ISSN	2150-7511
DOI	https://doi.org/10.1128/mBio.00022-14
Status	Udgivet - 4 mar. 2014
Udgivet eksternt	Ja

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10.1128/mBio.00022-14

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title = "ZapE is a novel cell division protein interacting with FtsZ and modulating the Z-ring dynamics",

abstract = "Bacterial cell division requires the formation of a mature divisome complex positioned at the midcell. The localization of the divisome complex is determined by the correct positioning, assembly, and constriction of the FtsZ ring (Z-ring). Z-ring constriction control remains poorly understood and (to some extent) controversial, probably due to the fact that this phenomenon is transient and controlled by numerous factors. Here, we characterize ZapE, a novel ATPase found in Gram-negative bacteria, which is required for growth under conditions of low oxygen, while loss of zapE results in temperature-dependent elongation of cell shape. We found that ZapE is recruited to the Z-ring during late stages of the cell division process and correlates with constriction of the Z-ring. Overexpression or inactivation of zapE leads to elongation of Escherichia coli and affects the dynamics of the Z-ring during division. In vitro, ZapE destabilizes FtsZ polymers in an ATP-dependent manner.",

author = "B.S. Marteyn and G. Karimova and A.K. Fenton and A.D. Gazi and N. West and L. Touqui and M.-C. Prevost and J.-M. Betton and O. Poyraz and D. Ladant and Kenn Gerdes and P.J. Sansonetti and C.M. Tang",

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doi = "10.1128/mBio.00022-14",

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TY - JOUR

T1 - ZapE is a novel cell division protein interacting with FtsZ and modulating the Z-ring dynamics

AU - Marteyn, B.S.

AU - Karimova, G.

AU - Fenton, A.K.

AU - Gazi, A.D.

AU - West, N.

AU - Touqui, L.

AU - Prevost, M.-C.

AU - Betton, J.-M.

AU - Poyraz, O.

AU - Ladant, D.

AU - Gerdes, Kenn

AU - Sansonetti, P.J.

AU - Tang, C.M.

PY - 2014/3/4

Y1 - 2014/3/4

N2 - Bacterial cell division requires the formation of a mature divisome complex positioned at the midcell. The localization of the divisome complex is determined by the correct positioning, assembly, and constriction of the FtsZ ring (Z-ring). Z-ring constriction control remains poorly understood and (to some extent) controversial, probably due to the fact that this phenomenon is transient and controlled by numerous factors. Here, we characterize ZapE, a novel ATPase found in Gram-negative bacteria, which is required for growth under conditions of low oxygen, while loss of zapE results in temperature-dependent elongation of cell shape. We found that ZapE is recruited to the Z-ring during late stages of the cell division process and correlates with constriction of the Z-ring. Overexpression or inactivation of zapE leads to elongation of Escherichia coli and affects the dynamics of the Z-ring during division. In vitro, ZapE destabilizes FtsZ polymers in an ATP-dependent manner.

AB - Bacterial cell division requires the formation of a mature divisome complex positioned at the midcell. The localization of the divisome complex is determined by the correct positioning, assembly, and constriction of the FtsZ ring (Z-ring). Z-ring constriction control remains poorly understood and (to some extent) controversial, probably due to the fact that this phenomenon is transient and controlled by numerous factors. Here, we characterize ZapE, a novel ATPase found in Gram-negative bacteria, which is required for growth under conditions of low oxygen, while loss of zapE results in temperature-dependent elongation of cell shape. We found that ZapE is recruited to the Z-ring during late stages of the cell division process and correlates with constriction of the Z-ring. Overexpression or inactivation of zapE leads to elongation of Escherichia coli and affects the dynamics of the Z-ring during division. In vitro, ZapE destabilizes FtsZ polymers in an ATP-dependent manner.

U2 - 10.1128/mBio.00022-14

DO - 10.1128/mBio.00022-14

M3 - Journal article

C2 - 24595368

SN - 2161-2129

VL - 5

SP - 1

EP - 10

JO - mBio

JF - mBio

IS - 2

M1 - e00022-14

ER -

ZapE is a novel cell division protein interacting with FtsZ and modulating the Z-ring dynamics

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