Authors:
BISHOP GR
ZHU ZY
WHITEHEAD TL
HICKS RP
DAVIDSON VL
Citation: Gr. Bishop et al., IDENTIFICATION OF REACTION-PRODUCTS AND INTERMEDIATES OF AROMATIC-AMINE DEHYDROGENASE BY N-15 AND C-13 NMR, Biochemical journal, 330, 1998, pp. 1159-1163
Citation: Zy. Zhu et Vl. Davidson, KINETIC AND CHEMICAL MECHANISMS FOR THE EFFECTS OF UNIVALENT CATIONS ON THE SPECTRAL PROPERTIES OF AROMATIC AMINE DEHYDROGENASE, Biochemical journal, 329, 1998, pp. 175-182
Authors:
CHEN LY
DOI N
DURLEY RCE
CHISTOSERDOV AY
LIDSTROM ME
DAVIDSON VL
MATHEWS FS
Citation: Ly. Chen et al., REFINED CRYSTAL-STRUCTURE OF METHYLAMINE DEHYDROGENASE FROM PARACOCCUS-DENITRIFICANS AT 1.75 ANGSTROM RESOLUTION, Journal of Molecular Biology, 276(1), 1998, pp. 131-149
Citation: Zy. Zhu et Vl. Davidson, REDOX PROPERTIES OF TRYPTOPHAN TRYPTOPHYLQUINONE ENZYMES - CORRELATION WITH STRUCTURE AND REACTIVITY, The Journal of biological chemistry, 273(23), 1998, pp. 14254-14260
Citation: Gr. Bishop et Vl. Davidson, ELECTRON-TRANSFER FROM THE AMINOSEMIQUINONE REACTION INTERMEDIATE OF METHYLAMINE DEHYDROGENASE TO AMICYANIN, Biochemistry, 37(31), 1998, pp. 11026-11032
Citation: Vl. Davidson et al., SITE-DIRECTED MUTAGENESIS OF PHE-97 TO GLU IN AMICYANIN ALTERS THE ELECTRONIC COUPLING FOR INTERPROTEIN ELECTRON-TRANSFER FROM QUINOL METHYLAMINE DEHYDROGENASE, Biochemistry, 37(20), 1998, pp. 7371-7377
Citation: Zy. Zhu et Vl. Davidson, METHYLAMINE DEHYDROGENASE IS A LIGHT-DEPENDENT OXIDASE, Biochimica et biophysica acta. Bioenergetics, 1364(3), 1998, pp. 297-300
Citation: Gr. Bishop et Vl. Davidson, CATALYTIC ROLE OF MONOVALENT CATIONS IN THE MECHANISM OF PROTON-TRANSFER WHICH GATES AN INTERPROTEIN ELECTRON-TRANSFER REACTION, Biochemistry, 36(44), 1997, pp. 13586-13592
Authors:
DAVIDSON VL
JONES LH
GRAICHEN ME
MATHEWS FS
HOSLER JP
Citation: Vl. Davidson et al., FACTORS WHICH STABILIZE THE METHYLAMINE DEHYDROGENASE-AMICYANIN ELECTRON-TRANSFER PROTEIN COMPLEX REVEALED BY SITE-DIRECTED MUTAGENESIS, Biochemistry, 36(42), 1997, pp. 12733-12738
Citation: L. Falzon et Vl. Davidson, REGULATION OF ELECTRON-TRANSFER IN TRIMETHYLAMINE DEHYDROGENASE BY SUBSTRATE, The FASEB journal, 10(6), 1996, pp. 20-20
Citation: Gr. Bishop et Vl. Davidson, REACTION INTERMEDIATES AND MECHANISMS FOR THE OXIDATION OF MADH BY AMICYANIN, The FASEB journal, 10(6), 1996, pp. 24-24
Citation: Gr. Bishop et Vl. Davidson, REACTION INTERMEDIATES AND MECHANISMS FOR THE OXIDATION OF MADH BY AMICYANIN, The FASEB journal, 10(6), 1996, pp. 2218-2218
Authors:
MERLI A
BRODERSEN DE
MORINI B
CHEN ZW
DURLEY RCE
MATHEWS FS
DAVIDSON VL
ROSSI GL
Citation: A. Merli et al., ENZYMATIC AND ELECTRON-TRANSFER ACTIVITIES IN CRYSTALLINE PROTEIN COMPLEXES, The Journal of biological chemistry, 271(16), 1996, pp. 9177-9180
Citation: L. Falzon et Vl. Davidson, KINETIC-MODEL FOR THE REGULATION BY SUBSTRATE OF INTRAMOLECULAR ELECTRON-TRANSFER IN TRIMETHYLAMINE DEHYDROGENASE, Biochemistry, 35(7), 1996, pp. 2445-2452
Citation: L. Falzon et Vl. Davidson, INTRAMOLECULAR ELECTRON-TRANSFER IN TRIMETHYLAMINE DEHYDROGENASE - A THERMODYNAMIC ANALYSIS, Biochemistry, 35(37), 1996, pp. 12111-12118
Citation: Gr. Bishop et al., EVIDENCE FOR A TRYPTOPHAN TRYPTOPHYLQUINONE AMINOSEMIQUINONE INTERMEDIATE IN THE PHYSIOLOGICAL REACTION BETWEEN METHYLAMINE DEHYDROGENASE AND AMICYANIN, Biochemistry, 35(27), 1996, pp. 8948-8954
Citation: Vl. Davidson et Lh. Jones, ELECTRON-TRANSFER FROM COPPER TO HEME WITHIN THE METHYLAMINE DEHYDROGENASE-AMICYANIN-CYTOCHROME C-551I COMPLEX, Biochemistry, 35(25), 1996, pp. 8120-8125
Authors:
LOUGHRAN MG
HALL JM
DAVIDSON VL
TURNER APF
Citation: Mg. Loughran et al., AMMONIUM ION REQUIREMENT AND STABILITY OF METHANOL DEHYDROGENASE TTF TCNQ ELECTRODES, Analyst, 121(11), 1996, pp. 1711-1715
Authors:
BISHOP GR
VALENTE EJ
WHITEHEAD TL
BROWN KL
HICKS RP
DAVIDSON VL
Citation: Gr. Bishop et al., DIRECT-DETECTION BY N-15 NMR OF THE TRYPTOPHAN TRYPTOPHYLQUINONE AMINOQUINOL REACTION INTERMEDIATE OF METHYLAMINE DEHYDROGENASE, Journal of the American Chemical Society, 118(50), 1996, pp. 12868-12869
Authors:
LOUGHRAN MG
HALL JM
TURNER APF
DAVIDSON VL
Citation: Mg. Loughran et al., AMPEROMETRIC DETECTION OF HISTAMINE AT A QUINOPROTEIN DEHYDROGENASE ENZYME ELECTRODE, Biosensors & bioelectronics, 10(6-7), 1995, pp. 569-576
Citation: Vl. Davidson et al., MECHANISM OF REACTION OF ALLYLAMINE WITH THE QUINOPROTEIN METHYLAMINEDEHYDROGENASE, Biochemical journal, 308, 1995, pp. 487-492
Citation: Vl. Davidson et Lh. Jones, REACTION-MECHANISM FOR THE INACTIVATION OF THE QUINOPROTEIN METHYLAMINE DEHYDROGENASE BY PHENYLHYDRAZINE, Biochimica et biophysica acta. Protein structure and molecular enzymology, 1252(1), 1995, pp. 146-150
Citation: Yl. Hyun et Vl. Davidson, UNUSUALLY LARGE ISOTOPE EFFECT FOR THE REACTION OF AROMATIC AMINE DEHYDROGENASE - A COMMON FEATURE OF QUINOPROTEINS, Biochimica et biophysica acta. Protein structure and molecular enzymology, 1251(2), 1995, pp. 198-200
Citation: Sl. Edwards et al., SPECTROSCOPIC EVIDENCE FOR A COMMON ELECTRON-TRANSFER PATHWAY FOR 2 TRYPTOPHAN TRYPTOPHYLQUINONE ENZYMES, The Journal of biological chemistry, 270(9), 1995, pp. 4293-4298