EC Number |
General Information |
Reference |
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1.13.11.69 | malfunction |
an enzyme mutant has morphological changes that includes dwarfing, excessive shoot branching and adventitious root formation. In addition, strigolactone-deficient mutants show a significant reduction in parasite (Phelipanche aegyptiaca) infestation compared to non-mutated tomato plants. In the mutated lines, orobanchol content is significantly reduced but total carotenoids level and expression of genes related to carotenoid biosynthesis are increased, as compared to control plants |
765819 |
1.13.11.69 | malfunction |
enzymatic mutants show excess branching, which is suppressed by exogenously applied strigolactones. Phelipanche aegyptiaca infection is lower in the enzyme mutants than in wild type |
764896 |
1.13.11.69 | malfunction |
enzyme mutants have increased shoot branching, reduced plant height, increased number of leaves and nodes, and reduced total plant biomass compared to wild type plants, however, the root-to-shoot ratio is unchanged. Enzyme mutations affect root morphology and affect plant senescence |
764895 |
1.13.11.69 | malfunction |
enzyme silencing favors phosphorus retention in the root and reduces phosphorus and biomass accumulation in the shoot under low phosphate |
765594 |
1.13.11.69 | malfunction |
enzyme-knockout lines show enhanced caulonema growth and enhanced susceptibility to fungal infection |
765478 |
1.13.11.69 | malfunction |
the biochemical basis of the shoot branching phenotype is due to inhibition of enzyme CCD8 |
744876 |
1.13.11.69 | malfunction |
transgenic SlCCD8 knockout lines display an increased shoot branching, reduced plant height, increased number of nodes and excessive adventitious root development. Transgenic lines show a reproductive phenotypes such as smaller flowers, fruits, as well as fewer and smaller seeds per fruit. Infestation by Phelipanche ramosa is reduced by 90% in lines with a relatively mild reduction in strigolactone biosynthesis and secretion while arbuscular mycorrhizal symbiosis, apical dominance and fruit yield are only mildly affected |
728380 |
1.13.11.69 | metabolism |
biosynthesis of strigolactones requires the action of two CCD enzymes, CCD7 (EC 1.13.11.68) and CCD8, which act sequentially on 9-cis-beta-carotene, strigolactone biosynthesis pathway from all-trans-beta-carotene to ent-2'-epi-5-deoxystrigol, overview |
744876 |
1.13.11.69 | metabolism |
key enzymes in the biosynthesis of strigolactone |
765390 |
1.13.11.69 | physiological function |
biosynthesis of strigolactones requires the action of two CCD enzymes, CCD7 (EC 1.13.11.68) and CCD8, which act sequentially on 9-cis-beta-carotene |
744876 |