Space and Time in the Plant Cell Wall: Relationships between Cell Type, Cell Wall Rheology and Cell Function

doi:10.1093/aob/mcm138

AOBPreview originally published online on July 27, 2007
Annals of Botany 2008 101(2):203-211; doi:10.1093/aob/mcm138

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Space and Time in the Plant Cell Wall: Relationships between Cell Type, Cell Wall Rheology and Cell Function

D. S. Thompson^*

School of Biosciences, University of Westminster, 115 New Cavendish Street, London W1W 6UW, UK

^* For correspondence: E-mail thompss{at}wmin.ac.uk

Received: 29 January 2007 Returned for revision: 12 April 2007 Accepted: 16 May 2007 Published electronically: 27 July 2007

Background: The biomechanical behaviour of plant cells depends upon thematerial properties of their cell walls and, in many cases,it is necessary that these properties are quite specific. Additionally,physiological regulation may require that target cells respondingto hormonal signals or environmental factors are able to modulatethese characteristics.

Argument: This paper uses a rheological analysis of creep of elongatingsunflower (Helianthus annuus) sunflower hypocotyls to demonstratethat the mechanical behaviour of plant cell walls is complexand involves multiple layered processes that can be distinguishedfrom one another by the time-scale over which they lead to achange in tissue dimensions, their sensitivity to pH and temperature,and their responses to changes in spatial arrangement of thecell wall brought about by treatment with high M_r PEG. Furthermore,it appears possible to regulate individual rheological processes,with limited effect on others, in order to modulate growth withoutaffecting tissue structural integrity. It is proposed that controlof the water content of the cell wall and therefore the spacebetween cell wall polymers may be one mechanism by which differentialregulation of cell wall biomechanical properties is achieved.This hypothesis is supported by evidence showing that enzymeextracts from growing tissues can cause swelling in cell wallfragments in suspension.

Implications: The physiological implications of this complexity are then consideredfor growing tissues, stomatal guard cells and abscission cells.It is noted that, in each circumstance, a different combinationof mechanical properties is required and that differential regulationof properties affecting behaviour over different time-scalesis often necessary.

Key words: Helianthus annuus, cell wall, rheology, growth, stomata, abscission

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