Imaging-based identification of a critical regulator of FtsZ protofilament curvature in Caulobacter

Erin D. Goley; Natalie A. Dye; John N. Werner; Zemer Gitai; Lucy Shapiro

doi:10.1016/j.molcel.2010.08.027

Imaging-based identification of a critical regulator of FtsZ protofilament curvature in Caulobacter

Erin D. Goley, Natalie A. Dye, John N. Werner, Zemer Gitai, Lucy Shapiro

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59 Scopus citations

Abstract

FtsZ is an essential bacterial GTPase that polymerizes at midcell, recruits the division machinery, and may generate constrictive forces necessary for cytokinesis. However, many of the mechanistic details underlying these functions are unknown. We sought to identify FtsZ-binding proteins that influence FtsZ function in Caulobacter crescentus. Here, we present a microscopy-based screen through which we discovered two FtsZ-binding proteins, FzlA and FzlC. FzlA is conserved in α-proteobacteria and was found to be functionally critical for cell division in Caulobacter. FzlA altered FtsZ structure both in vivo and in vitro, forming stable higher-order structures that were resistant to depolymerization by MipZ, a spatial determinant of FtsZ assembly. Electron microscopy revealed that FzlA organizes FtsZ protofilaments into striking helical bundles. The degree of curvature induced by FzlA depended on the nucleotide bound to FtsZ. Induction of FtsZ curvature by FzlA carries implications for regulating FtsZ function by modulating its superstructure.

Original language	English (US)
Pages (from-to)	975-987
Number of pages	13
Journal	Molecular Cell
Volume	39
Issue number	6
DOIs	https://doi.org/10.1016/j.molcel.2010.08.027
State	Published - Sep 2010

All Science Journal Classification (ASJC) codes

Molecular Biology
Cell Biology

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10.1016/j.molcel.2010.08.027

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title = "Imaging-based identification of a critical regulator of FtsZ protofilament curvature in Caulobacter",

abstract = "FtsZ is an essential bacterial GTPase that polymerizes at midcell, recruits the division machinery, and may generate constrictive forces necessary for cytokinesis. However, many of the mechanistic details underlying these functions are unknown. We sought to identify FtsZ-binding proteins that influence FtsZ function in Caulobacter crescentus. Here, we present a microscopy-based screen through which we discovered two FtsZ-binding proteins, FzlA and FzlC. FzlA is conserved in α-proteobacteria and was found to be functionally critical for cell division in Caulobacter. FzlA altered FtsZ structure both in vivo and in vitro, forming stable higher-order structures that were resistant to depolymerization by MipZ, a spatial determinant of FtsZ assembly. Electron microscopy revealed that FzlA organizes FtsZ protofilaments into striking helical bundles. The degree of curvature induced by FzlA depended on the nucleotide bound to FtsZ. Induction of FtsZ curvature by FzlA carries implications for regulating FtsZ function by modulating its superstructure.",

author = "Goley, {Erin D.} and Dye, {Natalie A.} and Werner, {John N.} and Zemer Gitai and Lucy Shapiro",

note = "Funding Information: We are grateful to members of the Shapiro and McAdams laboratories for helpful discussions. We thank Matt Welch for use of the Fluorolog-3 spectrofluorometer, Matt Footer for assistance with size exclusion chromatography, Yi-Chun Yeh and Esteban Toro for strains, Michael Fero for developing KAMS imaging software, and Angela Zippilli and Eric Chen for technical assistance. E.D.G. is a Helen Hay Whitney Foundation postdoctoral fellow. J.N.W. is supported by a postdoctoral fellowship from National Institute of Allergy and Infectious Diseases Grant 1F32AI073043-01A1. This work was supported in part by the Office of Science (Biological and Environmental Research), Department of Energy Grant DE-FG02-05ER64136 (Z.G. and L.S.) and by National Institutes of Health Grant R01 GM 32506 (L.S.). ",

year = "2010",

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AU - Goley, Erin D.

AU - Dye, Natalie A.

AU - Werner, John N.

AU - Gitai, Zemer

AU - Shapiro, Lucy

N1 - Funding Information: We are grateful to members of the Shapiro and McAdams laboratories for helpful discussions. We thank Matt Welch for use of the Fluorolog-3 spectrofluorometer, Matt Footer for assistance with size exclusion chromatography, Yi-Chun Yeh and Esteban Toro for strains, Michael Fero for developing KAMS imaging software, and Angela Zippilli and Eric Chen for technical assistance. E.D.G. is a Helen Hay Whitney Foundation postdoctoral fellow. J.N.W. is supported by a postdoctoral fellowship from National Institute of Allergy and Infectious Diseases Grant 1F32AI073043-01A1. This work was supported in part by the Office of Science (Biological and Environmental Research), Department of Energy Grant DE-FG02-05ER64136 (Z.G. and L.S.) and by National Institutes of Health Grant R01 GM 32506 (L.S.).

PY - 2010/9

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N2 - FtsZ is an essential bacterial GTPase that polymerizes at midcell, recruits the division machinery, and may generate constrictive forces necessary for cytokinesis. However, many of the mechanistic details underlying these functions are unknown. We sought to identify FtsZ-binding proteins that influence FtsZ function in Caulobacter crescentus. Here, we present a microscopy-based screen through which we discovered two FtsZ-binding proteins, FzlA and FzlC. FzlA is conserved in α-proteobacteria and was found to be functionally critical for cell division in Caulobacter. FzlA altered FtsZ structure both in vivo and in vitro, forming stable higher-order structures that were resistant to depolymerization by MipZ, a spatial determinant of FtsZ assembly. Electron microscopy revealed that FzlA organizes FtsZ protofilaments into striking helical bundles. The degree of curvature induced by FzlA depended on the nucleotide bound to FtsZ. Induction of FtsZ curvature by FzlA carries implications for regulating FtsZ function by modulating its superstructure.

AB - FtsZ is an essential bacterial GTPase that polymerizes at midcell, recruits the division machinery, and may generate constrictive forces necessary for cytokinesis. However, many of the mechanistic details underlying these functions are unknown. We sought to identify FtsZ-binding proteins that influence FtsZ function in Caulobacter crescentus. Here, we present a microscopy-based screen through which we discovered two FtsZ-binding proteins, FzlA and FzlC. FzlA is conserved in α-proteobacteria and was found to be functionally critical for cell division in Caulobacter. FzlA altered FtsZ structure both in vivo and in vitro, forming stable higher-order structures that were resistant to depolymerization by MipZ, a spatial determinant of FtsZ assembly. Electron microscopy revealed that FzlA organizes FtsZ protofilaments into striking helical bundles. The degree of curvature induced by FzlA depended on the nucleotide bound to FtsZ. Induction of FtsZ curvature by FzlA carries implications for regulating FtsZ function by modulating its superstructure.

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Imaging-based identification of a critical regulator of FtsZ protofilament curvature in Caulobacter

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