Journal article
Cracking the elusive alignment hypothesis: The microtubule-cellulose synthase nexus unraveled
M Bringmann, B Landrein, C Schudoma, O Hamant, MT Hauser, S Persson
Trends in Plant Science | Published : 2012
Abstract
Directed plant cell growth is governed by deposition and alterations of cell wall components under turgor pressure. A key regulatory element of anisotropic growth, and hence cell shape, is the directional deposition of cellulose microfibrils. The microfibrils are synthesized by plasma membrane-located cellulose synthase complexes that co-align with and move along cortical microtubules. That the parallel relation between cortical microtubules and extracellular microfibrils is causal has been named the alignment hypothesis. Three recent studies revealed that the previously identified pom2 mutant codes for a large cellulose synthases interacting (CSI1) protein which also binds cortical microtub..
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Awarded by Max-Planck-Gesellschaft
Funding Acknowledgements
We would like to thank Dr Dirk Walther for useful comments on the structural aspects of the CSI1. M.B. and S.P. were funded in part by the Max-Planck Gesellschaft, and through the DFG grant PE1642/5-1. M.T.H. was funded by the Austrian Science Fund (FWF, and the following grants; SFB F37/F03707, P14477-GEN, P11001-GEN). B.L. and O.H. were funded in part by a grant from Agence Nationale de la Recherche ANR-10-BLAN-1516 "Mechastem". C.S. was supported by the TROST grant (22011208) from the BMELV (German Ministry for Food, Agriculture and Consumer Protection).