Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/13520
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Type: Journal article
Title: Virus-induced silencing of a plant cellulose synthase gene
Author: Burton, R.
Gibeaut, D.
Bacic, A.
Findlay, K.
Roberts, K.
Hamilton, A.
Baulcombe, D.
Fincher, G.
Citation: The Plant Cell, 2000; 12(5):691-705
Publisher: American Society of Plant Physiologists
Issue Date: 2000
ISSN: 1040-4651
1532-298X
Statement of
Responsibility: 
Rachel A. Burton, David M. Gibeaut, Antony Bacic, Kim Findlay, Keith Roberts, Andrew Hamilton, David C. Baulcombe and Geoffrey B. Fincher
Abstract: Specific cDNA fragments corresponding to putative cellulose synthase genes (CesA) were inserted into potato virus X vectors for functional analysis in Nicotiana benthamiana by using virus-induced gene silencing. Plants infected with one group of cDNAs had much shorter internode lengths, small leaves, and a "dwarf" phenotype. Consistent with a loss of cell wall cellulose, abnormally large and in many cases spherical cells ballooned from the undersurfaces of leaves, particularly in regions adjacent to vascular tissues. Linkage analyses of wall polysaccharides prepared from infected leaves revealed a 25% decrease in cellulose content. Transcript levels for at least one member of the CesA cellulose synthase gene family were lower in infected plants. The decrease in cellulose content in cell walls was offset by an increase in homogalacturonan, in which the degree of esterification of carboxyl groups decreased from ~50 to ~33%. The results suggest that feedback loops interconnect the cellular machinery controlling cellulose and pectin biosynthesis. On the basis of the phenotypic features of the infected plants, changes in wall composition, and the reduced abundance of CesA mRNA, we concluded that the cDNA fragments silenced one or more cellulose synthase genes.
Keywords: Tobacco; Plants, Toxic; Glucosyltransferases; Polysaccharides; DNA, Complementary; Microscopy, Electron, Scanning; Transcription, Genetic; Gene Silencing; Base Sequence; Sequence Homology, Nucleic Acid; Esterification; Phenotype; Molecular Sequence Data
Rights: Copyright © 2000 American Society of Plant Physiologists
RMID: 0001000220
DOI: 10.1105/tpc.12.5.691
Appears in Collections:Agriculture, Food and Wine publications

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