1.14.15.17: pheophorbide a oxygenase
This is an abbreviated version!
For detailed information about pheophorbide a oxygenase, go to the full flat file.
Word Map on EC 1.14.15.17
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1.14.15.17
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chlorophyll
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catabolite
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ripening
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chlorophyllase
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stay-green
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macrocycle
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tetrapyrrole
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pheophytinase
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colorless
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degreening
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dark-induced
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phototoxic
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rieske
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nonfluorescent
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thermospermine
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rieske-type
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pheophytin
- 1.14.15.17
- chlorophyll
- catabolite
-
ripening
- chlorophyllase
-
stay-green
-
macrocycle
- tetrapyrrole
-
pheophytinase
-
colorless
-
degreening
-
dark-induced
-
phototoxic
-
rieske
-
nonfluorescent
- thermospermine
-
rieske-type
- pheophytin
Reaction
Synonyms
accelerated cell death 1, ACD1, AtPaO, chloroplast pheophorbide a oxygenase PaO1, chloroplast pheophorbide a oxygenase PaO2, CitPaO, EC 1.14.12.20, lethal leaf spot protein LLS1, lethal leaf-spot 1 homolog, Lls1, PAO, pheide a monooxygenase, pheide a oxygenase, pheophorbide a oxygenase
ECTree
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Metals Ions
Metals Ions on EC 1.14.15.17 - pheophorbide a oxygenase
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Fe
Fe2+
Iron-sulfur cluster
[2Fe-2S] cluster
Q10RT5
Rieske domain with a [2Fe-2S] cluster at its N-terminal region that accepts electrons from a reductase, and a functional PaO domain at the carboxyl-terminal region
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in iron-sulfur clusters, the enzyme contains an additional mononuclear iron center that is responsible for the activation of molecular oxygen. Electrons required to supply the iron-redox cycle of PAO are provided by reduced ferredoxin
Fe2+
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in iron-sulfur clusters, the enzyme contains an additional mononuclear iron center that is responsible for the activation of molecular oxygen. Electrons required to supply the iron-redox cycle of PAO are provided by reduced ferredoxin
Fe2+
Musa cavendishii
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in iron-sulfur clusters, the enzyme contains an additional mononuclear iron center that is responsible for the activation of molecular oxygen. Electrons required to supply the iron-redox cycle of PAO are provided by reduced ferredoxin
Fe2+
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in iron-sulfur clusters, the enzyme contains an additional mononuclear iron center that is responsible for the activation of molecular oxygen. Electrons required to supply the iron-redox cycle of PAO are provided by reduced ferredoxin
Fe2+
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in iron-sulfur clusters, the enzyme contains an additional mononuclear iron center that is responsible for the activation of molecular oxygen. Electrons required to supply the iron-redox cycle of PAO are provided by reduced ferredoxin
Iron-sulfur cluster
AtPaO is a Rieske-type ironsulfur cluster-containing enzyme