We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
The thanatos mutation in Arabidopsis thaliana cellulose synthase 3 ( AtCesA3) has a dominant-negative effect on cellulose synthesis and plant growth.
- Authors
Daras, Gerasimos; Rigas, Stamatis; Penning, Bryan; Milioni, Dimitra; McCann, Maureen C.; Carpita, Nicholas C.; Fasseas, Constantinos; Hatzopoulos, Polydefkis
- Abstract
• Genetic functional analyses of mutants in plant genes encoding cellulose synthases ( CesAs) have suggested that cellulose deposition requires the activity of multiple CesA proteins. • Here, a genetic screen has led to the identification of thanatos ( than), a semi-dominant mutant of Arabidopsis thaliana with impaired growth of seedlings. • Homozygous seedlings of than germinate and grow but do not survive. In contrast to other CesA mutants, heterozygous plants are dwarfed and display a radially swollen root phenotype. Cellulose content is reduced by approximately one-fifth in heterozygous and by two-fifths in homozygous plants, showing gene-dosage dependence. Map-based cloning revealed an amino acid substitution (P578S) in the catalytic domain of the AtCesA3 gene, indicating a critical role for this residue in the structure and function of the cellulose synthase complex. Ab initio analysis of the AtCesA3 subdomain flanking the conserved proline residue predicted that the amino acid substitution to serine alters protein secondary structure in the catalytic domain. Gene dosage-dependent expression of the AtCesA3 mutant gene in wild-type A. thaliana plants resulted in a than dominant-negative phenotype. • We propose that the incorporation of a mis-folded CesA3 subunit into the cellulose synthase complex may stall or prevent the formation of functional rosette complexes.
- Subjects
ARABIDOPSIS thaliana; CELLULOSE synthase; PLANT growth; DEATH instinct; PLANT mutation; GLUCAN synthase; GENETICS; GENE expression; GENETIC regulation
- Publication
New Phytologist, 2009, Vol 184, Issue 1, p114
- ISSN
0028-646X
- Publication type
Article
- DOI
10.1111/j.1469-8137.2009.02960.x