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Results:
1-17
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Results: 17
Authors:
Sun, DP
Jones, LH
Mathews, FS
Davidson, VL
Citation: Dp. Sun et al., Active-site residues are critical for the folding and stability of methylamine dehydrogenase, PROTEIN ENG, 14(9), 2001, pp. 675-681
Authors:
Davidson, VL
Citation: Vl. Davidson, Pyrroloquinoline quinone (PQQ) from methanol dehydrogenase and tryptophan tryptophylquinone (TTQ) from methylamine dehydrogenase, ADV PROTEIN, 58, 2001, pp. 95-140
Authors:
Sun, DP
Davidson, VL
Citation: Dp. Sun et Vl. Davidson, Re-engineering monovalent cation binding sites of methylamine dehydrogenase: Effects on spectral properties and gated electron transfer, BIOCHEM, 40(41), 2001, pp. 12285-12291
Authors:
Davidson, VL
Zhu, ZY
Citation: Vl. Davidson et Zy. Zhu, Reaction products and intermediates of tryptophan tryptophylquinone enzymes, J MOL CAT B, 8(1-3), 2000, pp. 69-83
Authors:
Zhu, ZY
Sun, DP
Davidson, VL
Citation: Zy. Zhu et al., Conversion of methylamine dehydrogenase to a long-chain amine dehydrogenase by mutagenesis of a single residue, BIOCHEM, 39(37), 2000, pp. 11184-11186
Authors:
Zhu, ZY
Jones, LMH
Graichen, ME
Davidson, VL
Citation: Zy. Zhu et al., Molecular basis for complex formation between methylamine dehydrogenase and amicyanin revealed by inverse mutagenesis of an interprotein salt bridge, BIOCHEM, 39(30), 2000, pp. 8830-8836
Authors:
Davidson, VL
Citation: Vl. Davidson, Effects of kinetic coupling on experimentally determined electron transferparameters, BIOCHEM, 39(16), 2000, pp. 4924-4928
Authors:
Davidson, VL
Jones, LH
Graichen, ME
Zhu, ZY
Citation: Vl. Davidson et al., Tyr(30) of amicyanin is not critical for electron transfer to cytochrome c-551i: implications for predicting electron transfer pathways, BBA-BIOENER, 1457(1-2), 2000, pp. 27-35
Authors:
Zeng, K
Tachikawa, H
Zhu, ZY
Davidson, VL
Citation: K. Zeng et al., Amperometric detection of histamine with a methylamine dehydrogenase polypyrrole-based sensor, ANALYT CHEM, 72(10), 2000, pp. 2211-2215
Authors:
Singh, V
Zhu, ZY
Davidson, VL
McCracken, J
Citation: V. Singh et al., Characterization of the tryptophan tryptophyl-semiquinone catalytic intermediate of methylamine dehydrogenase by electron spin-echo envelope modulation spectroscopy, J AM CHEM S, 122(5), 2000, pp. 931-938
Authors:
Davidson, VL
Citation: Vl. Davidson, What controls the rates of interprotein electron-transfer reactions, ACC CHEM RE, 33(2), 2000, pp. 87-93
Authors:
Davidson, VL
Citation: Vl. Davidson, Methylamine dehydrogenase: structure and function of electron transfer complexes, BIOCH SOC T, 27(2), 1999, pp. 201-206
Authors:
Hyun, YL
Zhu, ZY
Davidson, VL
Citation: Yl. Hyun et al., Gated and ungated electron transfer reactions from aromatic amine dehydrogenase to azurin, J BIOL CHEM, 274(41), 1999, pp. 29081-29086
Authors:
Zhu, ZY
Sun, DP
Davidson, VL
Citation: Zy. Zhu et al., Localization of periplasmic redox proteins of Alcaligenes faecalis by a modified general method for fractionating gram-negative bacteria, J BACT, 181(20), 1999, pp. 6540-6542
Authors:
Graichen, ME
Jones, LH
Sharma, BV
van Spanning, RJM
Hosler, JP
Davidson, VL
Citation: Me. Graichen et al., Heterologous expression of correctly assembled methylamine dehydrogenase in Rhodobacter sphaeroides, J BACT, 181(14), 1999, pp. 4216-4222
Authors:
Zhu, ZY
Davidson, VL
Citation: Zy. Zhu et Vl. Davidson, Identification of a new reaction intermediate in the oxidation of methylamine dehydrogenase by amicyanin, BIOCHEM, 38(15), 1999, pp. 4862-4867
Authors:
Zhu, ZY
Cunane, LM
Chen, ZW
Durley, RCE
Mathews, FS
Davidson, VL
Citation: Zy. Zhu et al., Molecular basis for interprotein complex-dependent effects on the redox properties of amicyanin, BIOCHEM, 37(49), 1998, pp. 17128-17136
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1-17
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