EC Number |
Natural Substrates |
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1.3.7.12 | more |
barley RCCR produces the C1 isomer pFCC-1 |
1.3.7.12 | more |
cell death gene ACD2 encodes red chlorophyll catabolite reductase and suppresses the spread of disease symptoms |
1.3.7.12 | more |
RCCR absence causes leaf cell death as a result of the accumulation of photodynamic RCC. RCCR (together with pheophorbide a oxygenase) is required for the detoxification of chlorophyll catabolites |
1.3.7.12 | more |
the enzyme is involved in breakdown of chlorophyll |
1.3.7.12 | more |
the enzyme is involved in chlorophyll breakdown |
1.3.7.12 | more |
the enzyme is involved in chlorophyll breakdown in senescent Arabidopsis leaves |
1.3.7.12 | more |
the major product of reduction of red chlorophyll catabolite is pFCC1, but small quantities of its C1 epimer, pFCC-2, also accumulate. Red chlorophyll catabolite reductase and pheophorbide a oxygenase catalyse the key eaction of chlorophyll catabolism, porphin macrocycle cleavage of pheide a to a primary fluorescent catabolite |
1.3.7.12 | more |
the major product of reduction of red chlorophyll catabolite is pFCC1, but small quantities of its C1 epimer, pFCC-2, also accumulate. Red chlorophyll catabolite reductase and pheophorbide a oxygenase catalyse the key reaction of chlorophyll catabolism, porphin macrocycle cleavage of pheide a to a primary fluorescent catabolite |
1.3.7.12 | more |
with Arabidopsis RCCR, the C1 isomer pFCC-1 is formed. RCCR could be required to mediate an efficient interaction between red chlorophyll catabolite (still bound to pheophorbide a oxygenase) and ferredoxin, thereby enabling a fast, regio-, and stereoselective reduction to blue-fluorescing intermediate |
1.3.7.12 | more |
with tomato RCCR, the C1 isomer pFCC-2 is formed |