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methylamine dehydrogenase (amicyanin) activity
Known as:
methylamine:amicyanin oxidoreductase (deaminating) activity
Catalysis of the reaction: methylamine + H2O + amicyanin = formaldehyde + ammonia + reduced amicyanin. [KEGG:R00606]
National Institutes of Health
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Broader (1)
amine dehydrogenase activity
Papers overview
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2014
2014
The sole tryptophan of amicyanin enhances its thermal stability but does not influence the electronic properties of the type 1 copper site.
Brian A. Dow
,
N. Sukumar
,
+4 authors
V. Davidson
Archives of Biochemistry and Biophysics
2014
Corpus ID: 11876858
2008
2008
The axial ligand and extent of protein folding determine whether Zn or Cu binds to amicyanin.
John K Ma
,
S. Lee
,
Moonsung Choi
,
G. Bishop
,
J. Hosler
,
V. Davidson
Journal of Inorganic Biochemistry
2008
Corpus ID: 34224626
2007
2007
A single methionine residue dictates the kinetic mechanism of interprotein electron transfer from methylamine dehydrogenase to amicyanin.
John K Ma
,
Yongting Wang
,
C. J. Carrell
,
F. Mathews
,
V. Davidson
Biochemistry
2007
Corpus ID: 30921074
Amicyanin is a type 1 copper protein that is the natural electron acceptor for the quinoprotein methylamine dehydrogenase (MADH…
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2007
2007
Correlation of rhombic distortion of the type 1 copper site of M98Q amicyanin with increased electron transfer reorganization energy.
John K Ma
,
F. Mathews
,
V. Davidson
Biochemistry
2007
Corpus ID: 11378608
Mutation of the axial Met ligand of the type 1 copper site of amicyanin to Ala or Gln yielded M98A amicyanin, which exhibits…
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2006
2006
Crystal structure of an electron transfer complex between aromatic amine dehydrogenase and azurin from Alcaligenes faecalis.
N. Sukumar
,
Zhi-Wei Chen
,
+6 authors
F. Mathews
Biochemistry
2006
Corpus ID: 29464244
The crystal structure of an electron transfer complex of aromatic amine dehydrogenase (AADH) and azurin is presented. Electrons…
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2004
2004
Electron transfer in crystals of the binary and ternary complexes of methylamine dehydrogenase with amicyanin and cytochrome c551i as detected by EPR spectroscopy
D. Ferrari
,
M. Valentin
,
+5 authors
G. Rossi
JBIC Journal of Biological Inorganic Chemistry
2004
Corpus ID: 24621141
EPR studies of the methylamine dehydrogenase (MADH)–amicyanin and MADH–amicyanin–cytochrome c551i crystalline complexes have been…
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2003
2003
An Engineered CuA Amicyanin Capable of Intermolecular Electron Transfer Reactions*
L. Jones
,
Aimin Liu
,
V. Davidson
Journal of Biological Chemistry
2003
Corpus ID: 108214
The type I copper center of amicyanin was replaced with a binuclear CuA center. To create this model CuA protein, a portion of…
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2000
2000
The Met99Gln mutant of amicyanin from Paracoccus versutus.
R. E. Diederix
,
G. Canters
,
C. Dennison
Biochemistry
2000
Corpus ID: 44853070
The axial copper ligand methionine has been replaced by a glutamine in the cupredoxin amicyanin from Paracoccus versutus. Dynamic…
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2000
2000
Molecular basis for complex formation between methylamine dehydrogenase and amicyanin revealed by inverse mutagenesis of an interprotein salt bridge.
Z. Zhu
,
L. Jones
,
M. Graichen
,
V. Davidson
Biochemistry
2000
Corpus ID: 26588372
Methylamine dehydrogenase (MADH) and amicyanin form a physiologic complex which is required for interprotein electron transfer…
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1996
1996
X-ray structure of the cupredoxin amicyanin, from Paracoccus denitrificans, refined at 1.31 A resolution.
L. Cunane
,
Z. Chen
,
R. Durley
,
F. Mathews
Acta Crystallographica Section D: Biological…
1996
Corpus ID: 39373272
High-resolution X-ray diffraction data to d(min) = 1.31 A were collected on a Xuong-Hamlin area detector from crystals of the…
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