3.5.3.6: arginine deiminase
This is an abbreviated version!
For detailed information about arginine deiminase, go to the full flat file.
Word Map on EC 3.5.3.6
-
3.5.3.6
-
ornithine
-
streptococcus
-
argininosuccinate
-
pegylated
-
levan
-
king
-
carbamate
-
reisolated
-
mycoplasma
-
water-soaked
-
syringae
-
greenhouse
-
urease
-
arginase
-
adi-peg20
-
lopat
-
dna-dna
-
melibiose
-
pathovars
-
d-sorbitol
-
midi
-
gordonii
-
l-citrulline
-
voges-proskauer
-
newark
-
l-rhamnose
-
symptomless
-
aesculin
-
d-mannitol
-
rep-pcr
-
ncppb
-
surface-sterilized
-
lecithinase
-
glistening
-
cichorii
-
amygdalin
-
arginine-dependent
-
supragingival
-
deimination
-
phytopathology
-
sanguinis
-
non-spore-forming
-
salicin
-
malolactic
-
maculicola
-
monterey
-
dulcitol
-
caries-free
-
hayward
-
drug development
-
adonitol
-
pharmacology
-
synthesis
-
medicine
- 3.5.3.6
- ornithine
- streptococcus
- argininosuccinate
-
pegylated
- levan
-
king
- carbamate
-
reisolated
- mycoplasma
-
water-soaked
- syringae
-
greenhouse
- urease
- arginase
-
adi-peg20
-
lopat
-
dna-dna
- melibiose
-
pathovars
- d-sorbitol
-
midi
- gordonii
- l-citrulline
-
voges-proskauer
-
newark
- l-rhamnose
-
symptomless
- aesculin
- d-mannitol
-
rep-pcr
-
ncppb
-
surface-sterilized
- lecithinase
-
glistening
- cichorii
- amygdalin
-
arginine-dependent
-
supragingival
-
deimination
-
phytopathology
- sanguinis
-
non-spore-forming
- salicin
-
malolactic
- maculicola
-
monterey
- dulcitol
-
caries-free
-
hayward
- drug development
- adonitol
- pharmacology
- synthesis
- medicine
Reaction
Synonyms
ADI, ArcA, arcA-1, arcA-2, arginine deiminase, arginine dihydrolase, arginine-degrading enzyme, citrulline iminase, deiminase, arginine, L-arginine deiminase, LADI, lymphocyte blastogenesis inhibitory factor, More, PaADI, PAD, PAD2, peptidylarginine deiminase, PpADI, Streptococcal acid glycoprotein
ECTree
Advanced search results
Reaction
Reaction on EC 3.5.3.6 - arginine deiminase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
L-arginine + H2O = L-citrulline + NH3
catalytic mechanism, substrate binding mode
-
L-arginine + H2O = L-citrulline + NH3
mechanism, nucleophilic catalysis
-
L-arginine + H2O = L-citrulline + NH3
substrate binding and catalytic mechanism
L-arginine + H2O = L-citrulline + NH3
Cys406, His278, Asp280, and Asp166 residues form the catalytic motif, function of Cys406 in nucleophilic catalysis, detailed reaction mechanism and enzyme-intermediate structures, substrate-induced fit in ADI catalysis, overview
L-arginine + H2O = L-citrulline + NH3
catalytic mechanism, active site residues Asp160, Glu212, His268, and Asp270 are highly conserved and crucial for activity
-
L-arginine + H2O = L-citrulline + NH3
residues Cys406, His278, and Asp166 and the contribution from the neighboring Asp280 are important in catalysis of the formation and hydrolysis of the Cys406-alkyluronium intermediate, structure and kinetic analysis
L-arginine + H2O = L-citrulline + NH3
the catalytic triad is formed by Cys398, His269, and Glu213, active site and substrate binding structure, six-step reaction mechanism with two key reaction intermediates, Cys398 is responsible for the nucleophilic attack, His269 is the proton acceptor
-
L-arginine + H2O = L-citrulline + NH3
the catalytic triad is formed by Cys406, His278, and Glu224, active site and substrate binding structure, reaction mechanism with Cys406 being the key residue for the nucleophilic attack, and His278 as general base in the proton transfer chain
-
L-arginine + H2O = L-citrulline + NH3
the chemical mechanism for ADI catalysis involves initial formation and subsequent hydrolysis of a Cys-alkylthiouronium ion intermediate
-
L-arginine + H2O = L-citrulline + NH3
the chemical mechanism for ADI catalysis involves initial formation and subsequent hydrolysis of a Cys-alkylthiouronium ion intermediate
-
L-arginine + H2O = L-citrulline + NH3
the chemical mechanism for ADI catalysis involves initial formation and subsequent hydrolysis of a Cys-alkylthiouronium ion intermediate
L-arginine + H2O = L-citrulline + NH3
the chemical mechanism for ADI catalysis involves initial formation and subsequent hydrolysis of a Cys-alkylthiouronium ion intermediate
-
L-arginine + H2O = L-citrulline + NH3
the chemical mechanism for ADI catalysis involves initial formation and subsequent hydrolysis of a Cys-alkylthiouronium ion intermediate
-
L-arginine + H2O = L-citrulline + NH3
chemical mechanism for ADI catalysis involves initial formation and subsequent hydrolysis of a Cys-alkylthiouronium ion intermediate, PaADI employs an active site Cys in nucleophilic catalysis