Winding threads around plant cells: a geometrical model for microfibril deposition

Abstract

In this paper, a geometrical model is put forward to account for the deposition orientation of plant cell wall microfibrils (CMFs). The model presupposes the insertion in the plasma membrane of CMF initiation complexes, which, once inserted, are moved through the fluid plane of the plasma membrane by the kinetic force of CMF synthesis, leaving CMFs in their wake. Deposition occurs in a limited space and the CMFs are linked to wall matrix molecules. CMF orientation is governed by the laws of geometry and, taking space‐limiting conditions into account, therefore depends on (1) cell geometry, (2) the other wall molecules linked to the CMFs, and (3) the number of CMF initiation complexes inserted into the plasma membrane. The model does not exclude the idea that cortical microtubules may determine initial CMF orientation after cell division by determining the cell elongation direction. Copyright © 1994, Wiley Blackwell. All rights reserved