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W E Newton

Showing results (1-10 of 41) with videos related to

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Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|September 24, 1987
New, man-made N2-fixing systemsW E Newton
Journal of the American Chemical Society|August 18, 1976
Letter: Monomeric molybdenum (V) complexes showing hydrogen-1, hydrogen-2, and nitrogen-14 superhyperfine splitting in their electron paramagnetic resonance spectra. Implications for molybdenum enzymesN Pariyadath, W E Newton, E I Stiefel
Biochemistry|April 22, 1997
Evidence for multiple substrate-reduction sites and distinct inhibitor-binding sites from an altered Azotobacter vinelandii nitrogenase MoFe proteinJ Shen, D R Dean, W E Newton
Biochemistry|December 12, 2000
Differential effects on N(2) binding and reduction, HD formation, and azide reduction with alpha-195(His)- and alpha-191(Gln)-substituted MoFe proteins of Azotobacter vinelandii nitrogenaseK Fisher, M J Dilworth, W E Newton
Biochemistry|March 22, 2001
Electron paramagnetic resonance analysis of different Azotobacter vinelandii nitrogenase MoFe-protein conformations generated during enzyme turnover: evidence for S = 3/2 spin states from reduced MoFe-protein intermediatesK Fisher, W E Newton, D J Lowe
Biochemical and Biophysical Research Communications|April 29, 1988
Iron-molybdenum cofactor of nitrogenase: electrochemical determination of the electron stoichiometry of the oxidized/semi-reduced coupleF A Schultz, S F Gheller, W E Newton
The Journal of Biological Chemistry|January 25, 1980
Oxidation-reduction properties and complexation reactions of the iron-molybdenum cofactor of nitrogenaseB K Burgess, E I Stiefel, W E Newton
The Journal of Biological Chemistry|October 5, 1992
Nitrogenase-catalyzed ethane production and CO-sensitive hydrogen evolution from MoFe proteins having amino acid substitutions in an alpha-subunit FeMo cofactor-binding domainD J Scott, D R Dean, W E Newton
Biochemistry|March 7, 1995
Role of the MoFe protein alpha-subunit histidine-195 residue in FeMo-cofactor binding and nitrogenase catalysisC H Kim, W E Newton, D R Dean
Journal of the American Chemical Society|April 2, 1975
Letter: Binding and activation of enzymic substrates by metal complexes. II. Delocalized acetylene complexes of molybdenumJ W MacDonald, J L Corbin, W E Newton
Pageof 5

Showing results (1-10 of 41) with videos related to

Sort By:
Pageof 5
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|September 24, 1987
New, man-made N2-fixing systemsW E Newton
Journal of the American Chemical Society|August 18, 1976
Letter: Monomeric molybdenum (V) complexes showing hydrogen-1, hydrogen-2, and nitrogen-14 superhyperfine splitting in their electron paramagnetic resonance spectra. Implications for molybdenum enzymesN Pariyadath, W E Newton, E I Stiefel
Biochemistry|April 22, 1997
Evidence for multiple substrate-reduction sites and distinct inhibitor-binding sites from an altered Azotobacter vinelandii nitrogenase MoFe proteinJ Shen, D R Dean, W E Newton
Biochemistry|December 12, 2000
Differential effects on N(2) binding and reduction, HD formation, and azide reduction with alpha-195(His)- and alpha-191(Gln)-substituted MoFe proteins of Azotobacter vinelandii nitrogenaseK Fisher, M J Dilworth, W E Newton
Biochemistry|March 22, 2001
Electron paramagnetic resonance analysis of different Azotobacter vinelandii nitrogenase MoFe-protein conformations generated during enzyme turnover: evidence for S = 3/2 spin states from reduced MoFe-protein intermediatesK Fisher, W E Newton, D J Lowe
Biochemical and Biophysical Research Communications|April 29, 1988
Iron-molybdenum cofactor of nitrogenase: electrochemical determination of the electron stoichiometry of the oxidized/semi-reduced coupleF A Schultz, S F Gheller, W E Newton
The Journal of Biological Chemistry|January 25, 1980
Oxidation-reduction properties and complexation reactions of the iron-molybdenum cofactor of nitrogenaseB K Burgess, E I Stiefel, W E Newton
The Journal of Biological Chemistry|October 5, 1992
Nitrogenase-catalyzed ethane production and CO-sensitive hydrogen evolution from MoFe proteins having amino acid substitutions in an alpha-subunit FeMo cofactor-binding domainD J Scott, D R Dean, W E Newton
Biochemistry|March 7, 1995
Role of the MoFe protein alpha-subunit histidine-195 residue in FeMo-cofactor binding and nitrogenase catalysisC H Kim, W E Newton, D R Dean
Journal of the American Chemical Society|April 2, 1975
Letter: Binding and activation of enzymic substrates by metal complexes. II. Delocalized acetylene complexes of molybdenumJ W MacDonald, J L Corbin, W E Newton
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