1.7.3.3: factor-independent urate hydroxylase
This is an abbreviated version!
For detailed information about factor-independent urate hydroxylase, go to the full flat file.
Word Map on EC 1.7.3.3
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1.7.3.3
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hyperuricemia
-
peroxisomal
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xanthine
-
allopurinol
-
gout
-
purine
-
catalase
-
allantoin
-
biosensors
-
electrode
-
hematologic
-
creatinine
-
oxonic
-
febuxostat
-
allantoinase
-
hyperkalemia
-
hypoxanthine
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prophylaxis
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flavus
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hyperphosphatemia
-
urate-lowering
-
ureide
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methemoglobinemia
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pegylated
-
amperometric
-
uricosuric
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hypocalcemia
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tophi
-
benzbromarone
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hominoid
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phosphotungstate
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microbodies
-
hypouricemic
-
probenecid
-
utilis
-
pimecrolimus
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pharmacology
-
medicine
-
analysis
-
synthesis
-
weight-based
-
nodule-specific
-
miocene
-
drug development
- 1.7.3.3
- hyperuricemia
- peroxisomal
- xanthine
- allopurinol
- gout
- purine
- catalase
- allantoin
-
biosensors
-
electrode
-
hematologic
- creatinine
-
oxonic
- febuxostat
- allantoinase
- hyperkalemia
- hypoxanthine
-
prophylaxis
- flavus
- hyperphosphatemia
-
urate-lowering
-
ureide
- methemoglobinemia
-
pegylated
-
amperometric
-
uricosuric
-
hypocalcemia
-
tophi
- benzbromarone
-
hominoid
-
phosphotungstate
- microbodies
-
hypouricemic
- probenecid
- utilis
- pimecrolimus
- pharmacology
- medicine
- analysis
- synthesis
-
weight-based
-
nodule-specific
-
miocene
- drug development
Reaction
Synonyms
AaUO, AgUOX, dHU-wPU, ELITEK, Fasturtec, MVSM, N-35, Nodule specific uricase, Nodulin 35, Nodulin 35 homolog, Non-symbiotic uricase, oxidase, urate, Pucl, Rasburicase, Uaz, Uox, Urate oxidase, urate oxidoreductase, UriA, uric acid oxidase, uricase, uricase II, Uricoenzyme, Uricozyme
ECTree
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Metals Ions
Metals Ions on EC 1.7.3.3 - factor-independent urate hydroxylase
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Ca2+
copper
Cu2+
Fe2+
Iron
Mg2+
Mn2+
Na+
additional information
Ca2+
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enzyme activity is strongly enhanced in presence of 1 mM Ca2+
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enzyme contains copper, inhibited by excessive addition of Cu2+
Cu2+
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enzyme activity is strongly enhanced in presence of 1 mM Cu2+
Fe2+
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enzyme activity is strongly enhanced in presence of 1 mM Fe2+
the catalytic mechanism of UOX does not imply any metal ion
additional information
-
a metal ion is possibly strongly bound in the enzyme and forms part of the uricase structure
additional information
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Mn2+, Mg2+, and K+ do not have much effect on the enzyme activity