Add to ORKGThe hydra sterol mutants (hydral and fk(^hyd2)) phenotypes are characterised by short thickened roots and a shoot consisting of a mass of indistinct leaves. At the cellular level, cell patterning is disorganised and cell shape irregular, hydra sterol mutants are not phenotypically rescued by application of extrogeneous sterols (Lindsey et al, 2003) and have auxin and ethylene signalling defects but no defects in biosynthesis (Souter et al., 2002).It is not known at the mechanistic level how the hydra phenotype is generated. The disruption in sterol biosynthesis and subsequent altered sterol profile may lead to a loss of sterol-based signals required for development (Schrick et al, 2000), or disruption of other hormone signalling pathways (S...
In higher plants, the most abundant sterol derivatives are steryl glycosides (SGs) and acyl SGs. Ara...
Structural sterols are abundant in the plasma membrane of root apex cells in Arabidopsis thaliana. T...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...
This thesis examines the gene promoter activity and morphological characteristics of mutants of HYDR...
The hydra mutants of Arabidopsis are characterized by a pleiotropic phenotype that shows defective e...
Background: The control of vascular tissue development in plants is influenced by diverse hormonal ...
The epidermis is hypothesized to play a signalling role during plant development. One class of mutan...
The epidermis is hypothesized to play a signalling role during plant development. One class of mutan...
The epidermis is hypothesized to play a signalling role during plant development. One class of mutan...
AbstractThe Arabidopsis mutants fackel and sterol methyltransferase 1 have defects associated with b...
In flowering plants, the developing embryo consists of growing populations of cells whose fates are ...
The control of vascular tissue development in plants is influenced by diverse hormonal signals, but ...
Sterols have multiple functions in all eukaryotes. In plants, sterol biosynthesis is initiated by th...
Thesis (Ph.D.), Graduate Program in Molecular Plant Sciences, Washington State UniversityThe biosynt...
Lesions in brassinosteroid (BR) biosynthetic genes result in characteristic dwarf phenotypes in plan...
In higher plants, the most abundant sterol derivatives are steryl glycosides (SGs) and acyl SGs. Ara...
Structural sterols are abundant in the plasma membrane of root apex cells in Arabidopsis thaliana. T...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...
This thesis examines the gene promoter activity and morphological characteristics of mutants of HYDR...
The hydra mutants of Arabidopsis are characterized by a pleiotropic phenotype that shows defective e...
Background: The control of vascular tissue development in plants is influenced by diverse hormonal ...
The epidermis is hypothesized to play a signalling role during plant development. One class of mutan...
The epidermis is hypothesized to play a signalling role during plant development. One class of mutan...
The epidermis is hypothesized to play a signalling role during plant development. One class of mutan...
AbstractThe Arabidopsis mutants fackel and sterol methyltransferase 1 have defects associated with b...
In flowering plants, the developing embryo consists of growing populations of cells whose fates are ...
The control of vascular tissue development in plants is influenced by diverse hormonal signals, but ...
Sterols have multiple functions in all eukaryotes. In plants, sterol biosynthesis is initiated by th...
Thesis (Ph.D.), Graduate Program in Molecular Plant Sciences, Washington State UniversityThe biosynt...
Lesions in brassinosteroid (BR) biosynthetic genes result in characteristic dwarf phenotypes in plan...
In higher plants, the most abundant sterol derivatives are steryl glycosides (SGs) and acyl SGs. Ara...
Structural sterols are abundant in the plasma membrane of root apex cells in Arabidopsis thaliana. T...
Adventitious roots (ARs) are formed de novo during post-embryonic development from non-root tissues,...