Identification of a Conserved Histidine As Being Critical for the Catalytic Mechanism and Functional Switching of the Multifunctional Proline Utilization A Protein.
Moxley, Michael A
Identification of a Conserved Histidine As Being Critical for the Catalytic Mechanism and Functional Switching of the Multifunctional Proline Utilization A Protein. [electronic resource] - Biochemistry 06 2017 - 3078-3088 p. digital
Publication Type: Journal Article
1520-4995
10.1021/acs.biochem.7b00046 doi
Amino Acid Sequence
Bacterial Proteins--chemistry
Biocatalysis
Conserved Sequence
Escherichia coli--chemistry
Histidine--analysis
Kinetics
Membrane Proteins--chemistry
Models, Molecular
Multifunctional Enzymes--chemistry
Proline Oxidase--chemistry
Sequence Alignment
Identification of a Conserved Histidine As Being Critical for the Catalytic Mechanism and Functional Switching of the Multifunctional Proline Utilization A Protein. [electronic resource] - Biochemistry 06 2017 - 3078-3088 p. digital
Publication Type: Journal Article
1520-4995
10.1021/acs.biochem.7b00046 doi
Amino Acid Sequence
Bacterial Proteins--chemistry
Biocatalysis
Conserved Sequence
Escherichia coli--chemistry
Histidine--analysis
Kinetics
Membrane Proteins--chemistry
Models, Molecular
Multifunctional Enzymes--chemistry
Proline Oxidase--chemistry
Sequence Alignment