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Methods in Molecular Biology (Clifton, N.J.)
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August 12, 2011
Small angle x-ray scattering spectroscopy
David W Mulder, John W Peters
Chemical Communications (Cambridge, England)
|
December 28, 2020
Catalytic bias in oxidation-reduction catalysis
David W Mulder, John W Peters, Simone Raugei
Frontiers in Catalysis
|
February 27, 2023
Harnessing selenocysteine to enhance microbial cell factories for hydrogen production
Armaan Patel, David W Mulder, Dieter Söll, et al.
ACS Nano
|
September 23, 2014
Diameter dependent electron transfer kinetics in semiconductor-enzyme complexes
Katherine A Brown, Qing Song, David W Mulder, et al.
Journal of the American Chemical Society
|
December 16, 2016
Identification of a Catalytic Iron-Hydride at the H-Cluster of [FeFe]-Hydrogenase
David W Mulder, Yisong Guo, Michael W Ratzloff, et al.
FEBS Letters
|
January 4, 2011
Structural basis for carbon dioxide binding by 2-ketopropyl coenzyme M oxidoreductase/carboxylase
Arti S Pandey, David W Mulder, Scott A Ensign, et al.
Frontiers in Microbiology
|
October 17, 2022
The Contribution of Proton-Donor pKa on Reactivity Profiles of [FeFe]-hydrogenases
Effie C Kisgeropoulos, Vivek S Bharadwaj, David W Mulder, et al.
Dalton Transactions (Cambridge, England : 2003)
|
August 8, 2009
Hydrogenase cluster biosynthesis: organometallic chemistry nature's way
Shawn E McGlynn, David W Mulder, Eric M Shepard, et al.
Methods in Enzymology
|
September 9, 2017
Structural Characterization of Poised States in the Oxygen Sensitive Hydrogenases and Nitrogenases
Jacob H Artz, Oleg A Zadvornyy, David W Mulder, et al.
The Journal of Biological Chemistry
|
April 18, 2024
Properties of the iron-sulfur cluster electron transfer relay in an [FeFe]-hydrogenase that is tuned for H<sub>2</sub> oxidation catalysis
Effie C Kisgeropoulos, Jacob H Artz, Matthew Blahut, et al.
Page
of 6
Search research articles
Search
Showing results (1-10 of 56) with videos related to
Sort By:
Page
of 6
Methods in Molecular Biology (Clifton, N.J.)
|
August 12, 2011
Small angle x-ray scattering spectroscopy
David W Mulder, John W Peters
Chemical Communications (Cambridge, England)
|
December 28, 2020
Catalytic bias in oxidation-reduction catalysis
David W Mulder, John W Peters, Simone Raugei
Frontiers in Catalysis
|
February 27, 2023
Harnessing selenocysteine to enhance microbial cell factories for hydrogen production
Armaan Patel, David W Mulder, Dieter Söll, et al.
ACS Nano
|
September 23, 2014
Diameter dependent electron transfer kinetics in semiconductor-enzyme complexes
Katherine A Brown, Qing Song, David W Mulder, et al.
Journal of the American Chemical Society
|
December 16, 2016
Identification of a Catalytic Iron-Hydride at the H-Cluster of [FeFe]-Hydrogenase
David W Mulder, Yisong Guo, Michael W Ratzloff, et al.
FEBS Letters
|
January 4, 2011
Structural basis for carbon dioxide binding by 2-ketopropyl coenzyme M oxidoreductase/carboxylase
Arti S Pandey, David W Mulder, Scott A Ensign, et al.
Frontiers in Microbiology
|
October 17, 2022
The Contribution of Proton-Donor pKa on Reactivity Profiles of [FeFe]-hydrogenases
Effie C Kisgeropoulos, Vivek S Bharadwaj, David W Mulder, et al.
Dalton Transactions (Cambridge, England : 2003)
|
August 8, 2009
Hydrogenase cluster biosynthesis: organometallic chemistry nature's way
Shawn E McGlynn, David W Mulder, Eric M Shepard, et al.
Methods in Enzymology
|
September 9, 2017
Structural Characterization of Poised States in the Oxygen Sensitive Hydrogenases and Nitrogenases
Jacob H Artz, Oleg A Zadvornyy, David W Mulder, et al.
The Journal of Biological Chemistry
|
April 18, 2024
Properties of the iron-sulfur cluster electron transfer relay in an [FeFe]-hydrogenase that is tuned for H<sub>2</sub> oxidation catalysis
Effie C Kisgeropoulos, Jacob H Artz, Matthew Blahut, et al.
Page
of 6