Abstract
Protoglobin from Methanosarcina acetivorans (MaPgb) is a dimeric globin with peculiar structural properties such as a completely buried haem and two orthogonal tunnels connecting the distal cavity to the solvent. CO binding to and dissociation from MaPgb occur through a biphasic kinetics. We show that the heterogenous kinetics arises from binding to (and dissociation from) two tertiary conformations in ligation-dependent equilibrium. Ligation favours the species with high binding rate (and low dissociation rate). The equilibrium is shifted towards the species with low binding (and high dissociation) rates for the unliganded molecules. A quantitative model is proposed to describe the observed carbonylation kinetics.
Publication types
-
Research Support, Non-U.S. Gov't
MeSH terms
-
Allosteric Regulation
-
Archaeal Proteins / chemistry*
-
Archaeal Proteins / genetics
-
Archaeal Proteins / metabolism*
-
Carbon Monoxide / chemistry
-
Carbon Monoxide / metabolism
-
Ferrous Compounds / chemistry
-
Ferrous Compounds / metabolism
-
Globins / chemistry
-
Globins / genetics
-
Globins / metabolism
-
Hemoglobins / chemistry*
-
Hemoglobins / genetics
-
Hemoglobins / metabolism*
-
Kinetics
-
Methanosarcina / metabolism*
-
Photolysis
-
Protein Binding
-
Protein Multimerization
-
Recombinant Proteins / chemistry
-
Recombinant Proteins / genetics
-
Recombinant Proteins / metabolism
Substances
-
Archaeal Proteins
-
Ferrous Compounds
-
Hemoglobins
-
Recombinant Proteins
-
Carbon Monoxide
-
Globins