EC Number |
General Information |
Reference |
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1.14.14.178 | malfunction |
dwf4-5D mutants display reduced sensitivity to methyl jasmonate and exhibit increased susceptibility to Pseudomonas syringae |
765565 |
1.14.14.178 | malfunction |
enzyme null mutants show severe symptoms of brassinosteroid deficiency |
765276 |
1.14.14.178 | metabolism |
key enzyme in the brassisteroid biosynthesis pathway |
765554 |
1.14.14.178 | metabolism |
the enzyme is responsible for brassinosteroid biosynthesis in maize |
765564 |
1.14.14.178 | metabolism |
the expression of DWARF4, which encodes a C-22 hydroxylase, is crucial for brassinosteroid biosynthesis and for the feedback control of endogenous brassinosteroid levels. The amount of the DWF4 mRNA precursor either decreases or increases, similarly with its mature form, in response to an exogenously applied bioactive brassinosteroid, brassinolide, and a brassinosteroid biosynthesis inhibitor, brassinazole, respectively. Brassinosteroids act positively on root elongation under the control of auxin |
728556 |
1.14.14.178 | physiological function |
enzyme over-expression in wild type Arabidopsis enhances the height of inflorescence stems, number of branches and productivity of seeds |
765564 |
1.14.14.178 | physiological function |
the enzyme plays a positive role in improving growth rate and elevating biomass production in poplar. Enzyme overexpression in poplar promotes growth rate and biomass yield, increases area and cell layers of xylem. Transgenic plants show a significant increase in plant height and stem diameter compared with the wild type |
765863 |
1.14.14.178 | physiological function |
the enzyme plays a role in regulation of plant growth and development |
765114 |
1.14.14.178 | physiological function |
the enzyme plays an important role in potato plant respone to salt stress. The overexpressing of enzyme in potato plantlets can enhance the salt resistance by alleviating the negative effects of salt-stress |
765605 |
1.14.14.178 | physiological function |
the expression of DWARF4, which encodes a C-22 hydroxylase, is crucial for brassinosteroid biosynthesis and for the feedback control of endogenous brassinosteroid levels. DWF4 transcription plays an important role in the brassinosteroid-auxin crosstalk associated with root elongation, in addition to its role in brassinosteroid homeostasis |
728556 |