Cellulose synthesis is required for deposition of reticulate wall ingrowths in transfer cells

doi:10.1093/pcp/pcl046

Plant and Cell Physiology Advance Access published online on December 13, 2006
Plant and Cell Physiology, doi:10.1093/pcp/pcl046

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© The Author 2006. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oxfordjournals.org

Cellulose synthesis is required for deposition of reticulate wall ingrowths in transfer cells

Mark J. Talbot¹^,2, Geoffrey O. Wasteneys³^,4, Christina E. Offler¹ and David W. McCurdy¹

¹School of Environmental and Life Sciences, The University of Newcastle, Newcastle NSW 2308, Australia
²Current address: Microscopy Unit, CSIRO Plant Industry, Canberra, ACT, 2601, Australia
³Plant Cell Biology Group, Research School of Biological Sciences, The Australian National University, Canberra ACT 2601, Australia
⁴Current address: Department of Botany, University of British Columbia, 3529-6270 University Boulevard, Vancouver, British Columbia, Canada V6T 1Z4

Corresponding author: Dr David McCurdy, School of Environmental and Life Sciences, The University of Newcastle, Callaghan, NSW 2308, Australia, Phone: +61 2 49 21 5879, Fax: +61 2 49 21 6923, E-mail: David.McCurdy{at}newcastle.edu.au

Abstract

Despite the recognized physiological importance of transfercells, little is known about how these specialized cells achievelocalized deposition of cell wall material, leading to amplificationof plasma membrane surface area and enhanced membrane transportcapacity. This study establishes that cellulose synthesis isa key early factor in the construction of ‘reticulate’wall ingrowths, an elaborate but common form of localized walldeposition characteristic of most transfer cells. Using FieldEmission Scanning Electron Microscopy, wall ingrowths were firstvisible in epidermal transfer cells of Faba bean cotyledonsas raised ‘patches’ of disorganized and tangledcellulosic material, and from these structures, ingrowths emergedvia further deposition of wall material. The cellulose biosynthesisinhibitors 2,6-dichlorobenzonitrile and isoxaben both causeddramatic reductions in the number of cells depositing wall ingrowths,altered wall ingrowth morphology, and visibly disrupted microfibrilstructure. The restriction of cellulose deposition to discretepatches suggests a novel mechanism for cellulose synthesis inthis circumstance. Overall, these results implicate a centralrole for cellulose synthesis in reticulate wall ingrowth morphology,especially at the initial stage of ingrowth formation, possiblyby providing a template for the self assembly of wall polymers.

Keywords: Cellulose microfibril - Field emission scanning electron microscopy - Transfer cell - Vicia faba - Wall ingrowth

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