EC Number |
General Information |
Reference |
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1.4.7.1 | malfunction |
the rice leaf color mutant lc7, which is defective in chlorophyll synthesis and photosynthesis, confers resistance to Xanthomonas oryzae pv. Oryzae |
743811 |
1.4.7.1 | metabolism |
Glu1 is involved in the primary nitrogen assimilation, primary nitrogen assimilation and glutamate metabolism overview. Metabolic profiling and gene expression profiling in glu1-2 knockout mutant, most significantly affected pathways in the Glu1 knockout mutant glu1-2, photosynthesis, photorespiratory cycle and chlorophyll biosynthesis show an overall downregulation in glu1-2 leaves in accordance with their slight chlorotic phenotype, numerous other responsive genes linked to a number of different stresses/stimuli are induced in glu1-2 leaves, very detailed overview |
711597 |
1.4.7.1 | physiological function |
GLU1 is involved in iron homeostasis through affecting glutamate synthesis under iron deficiency conditions in Arabidopsis. Lesion of GLU1 results in reduced transcription of many iron-deficiency responsive genes in roots and shoots. The mutant plants reveal a decreased iron concentration in the shoots, and display severe leaf chlorosis under the condition of iron limitation, compared to wild-type. The product of GLU1, glutamate, can chelate iron in vivo and promote iron transportation |
763345 |
1.4.7.1 | physiological function |
the enzyme functionsin nitrogen metabolism, effects chlorophyll synthesis, and impacts leaf senescence |
743540 |
1.4.7.1 | physiological function |
the enzyme is essential for plant growth and development by modulating nitrogen assimilation and the carbon-nitrogen balance |
743320 |
1.4.7.1 | physiological function |
the enzyme participates in leaf senescence and the nitrogen remobilization |
743294 |
1.4.7.1 | physiological function |
the enzyme plays an important role in broadspectrum bacterial blight resistance, in addition to modulating nitrogen assimilation and chloroplast development |
743811 |