Two Microtubule-associated Proteins of Arabidopsis MAP65s Promote Antiparallel Microtubule Bundling-Reference-Cited by-同舟云学术

Two Microtubule-associated Proteins of Arabidopsis MAP65s Promote Antiparallel Microtubule Bundling

Published:2008-10 Issue:10 Volume:19 Page:4534-4544
ISSN:1059-1524
Container-title:Molecular Biology of the Cell
language:en
Short-container-title:MBoC

Author:

Gaillard Jérémie¹,Neumann Emmanuelle²,Van Damme Daniel³⁴,Stoppin-Mellet Virginie¹,Ebel Christine²,Barbier Elodie¹,Geelen Danny⁵,Vantard Marylin¹

Affiliation:

1. *Institut de Recherches en Technologies et Sciences pour le Vivant, Unité Mixte de Recherche, Centre National de la Recherche Scientifique, Centre d'Energie Atomique, Institut de Recherche Agronomique, Université Joseph Fourier, 38054 Grenoble, France;

2. Institut de Biologie Structurale J.-P. Ebel, UMR 5075 CNRS, CEA, Université Joseph Fourier, 38027 Grenoble, France;

3. Department of Plant Systems Biology, Flanders Institute for Biotechnology, B-9052 Ghent, Belgium;

4. Department of Molecular Genetics, Ghent University, B-9052 Ghent, Belgium; and

5. Department of Plant Production, Ghent University, B-9000 Ghent, Belgium

Abstract

The Arabidopsis MAP65s are a protein family with similarity to the microtubule-associated proteins PRC1/Ase1p that accumulate in the spindle midzone during late anaphase in mammals and yeast, respectively. Here we investigate the molecular and functional properties of AtMAP65-5 and improve our understanding of AtMAP65-1 properties. We demonstrate that, in vitro, both proteins promote the formation of a planar network of antiparallel microtubules. In vivo, we show that AtMAP65-5 selectively binds the preprophase band and the prophase spindle microtubule during prophase, whereas AtMAP65-1-GFP selectively binds the preprophase band but does not accumulate at the prophase spindle microtubules that coexists within the same cell. At later stages of mitosis, AtMAP65-1 and AtMAP65-5 differentially label the late spindle and phragmoplast. We present evidence for a mode of action for both proteins that involves the binding of monomeric units to microtubules that “zipper up” antiparallel arranged microtubules through the homodimerization of the N-terminal halves when adjacent microtubules encounter.

Publisher

American Society for Cell Biology (ASCB)

Subject

Cell Biology,Molecular Biology

Reference45 articles.

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4. The 65-kDa carrot microtubule-associated protein forms regularly arranged filamentous cross-bridges between microtubules

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