1.4.9.1: methylamine dehydrogenase (amicyanin)
This is an abbreviated version!
For detailed information about methylamine dehydrogenase (amicyanin), go to the full flat file.
Word Map on EC 1.4.9.1
-
1.4.9.1
-
tryptophylquinone
-
ttq
-
paracoccus
-
denitrificans
-
maug
-
quinoproteins
-
diheme
-
versutus
-
bis-feiv
-
protein-derived
-
methylobacterium
-
premadh
-
thiobacillus
-
davidson
-
interprotein
-
extorquens
-
azurins
-
quinol
-
six-electron
-
substrate-derived
-
reorganizational
-
n-methylglutamate
-
n-butylamine
-
diferrous
-
aminoquinols
-
high-valence
-
methylomonas
-
mathews
-
analysis
- 1.4.9.1
- tryptophylquinone
- ttq
- paracoccus
- denitrificans
- maug
-
quinoproteins
-
diheme
- versutus
-
bis-feiv
-
protein-derived
- methylobacterium
-
premadh
-
thiobacillus
-
davidson
-
interprotein
- extorquens
- azurins
- quinol
-
six-electron
-
substrate-derived
-
reorganizational
- n-methylglutamate
- n-butylamine
-
diferrous
-
aminoquinols
-
high-valence
- methylomonas
-
mathews
- analysis
Reaction
+ + 2 amicyanin = + + 2 reduced amicyanin
Synonyms
amine dehydrogenase, amine: oxidoreductase (acceptor deaminating), dehydrogenase, amine, EC 1.4.98.1, EC 1.4.99.3, Heme 2, MADH, mauA, methylamine dehydrogenase, primary-amine dehydrogenase, QH-AmDH, QHNDH, quinohaemoprotein amine dehydrogenase, quinohemoprotein amine dehydrogenase, quinohemoprotein amine dehydrogenases, sQH-AmDH
ECTree
Advanced search results
Reaction
Reaction on EC 1.4.9.1 - methylamine dehydrogenase (amicyanin)
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
methylamine + H2O + 2 amicyanin = formaldehyde + NH3 + 2 reduced amicyanin
in the rate-determining step, a proton is transferred from the methyl group of the substrate to residue D76. Only one of the oxygen atoms of D76 can act as an acceptor of the proton, the other interacts with T122 via a strong hydrogen bond
-
methylamine + H2O + 2 amicyanin = formaldehyde + NH3 + 2 reduced amicyanin
model of electron transfer reaction between enzyme and transfer protein amicyanin
-
methylamine + H2O + 2 amicyanin = formaldehyde + NH3 + 2 reduced amicyanin
reduction of Cu2+ of electron transfer protein amicyanin by enzyme is a true electron transfer reaction
-
methylamine + H2O + 2 amicyanin = formaldehyde + NH3 + 2 reduced amicyanin
the rate-determining step in the reductive half-reaction of the bacterial enzyme methylamine dehydrogenase is the proton abstraction from the native substrate methylamine, ab initio QM/MM molecular dynamics simulations, average flow of electronic charge within the QM subsystem during proton transfer to OD1 computed from randomly selected subsets of the reactant, model comparisons, detailed overview