2004
How the geometrical model for plant cell wall formation enables the production of a random texture
Publication
Publication
Cellulose , Volume 11 p. 395- 401
Cellulose synthase (CESA) molecules are the building blocks and catalytic centers of the CESA complex. The study of mutants in Arabidopsis has led to insight into the structure of these nanomachines. Inside the plasma membrane, the CESA molecules are arranged in complexes, which, apart from the CESA molecules proper, contain other, mostly unidentified, proteins. We developed a theory in which CESA density, together with distance between cellulose microfibrils (CMFs) being deposited and cell geometry, determines wall texture. We have shown earlier how this theory is able to explain the production of axial, helical, helicoid and crossed-polylamellate textures. In the present article we extend this theory to random wall textures.
Additional Metadata | |
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doi.org/10.1023/b:cell.0000046419.31076.7f | |
Cellulose | |
Organisation | Theory of Biomolecular Matter |
Mulder, B., Schel, J. H. N., & Emons, A. M. (2004). How the geometrical model for plant cell wall formation enables the production of a random texture. Cellulose, 11, 395–401. doi:10.1023/b:cell.0000046419.31076.7f |