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
-
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
- 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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Organic Solvent Stability
Organic Solvent Stability on EC 1.7.3.3 - factor-independent urate hydroxylase
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DMSO
the residual recombinant UOX activity in the presence of DMSO is significantly higher than that in pure H2O, the residual UOX activity increases in response to the increase in the DMSO concentration up to 20%, further increase in DMSO concentration (50-70%) results in significant UOX deactivation
Methanol
the residual recombinant UOX activity in the presence of methanol is significantly higher than that in pure H2O, the residual UOX activity increases in response to the increase in the methanol concentration up to 20%, further increase in methanol concentration (50-70%) results in significant UOX deactivation