Functional and structural roles of the N-terminal extension in Methanosarcina acetivorans protoglobin |
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| Authors: | Chiara Ciaccio Alessandra Pesce Grazia R. Tundo Lesley Tilleman Laura Bertolacci Sylvia Dewilde Luc Moens Paolo Ascenzi Martino Bolognesi Marco Nardini Massimo Coletta |
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| Affiliation: | 1. Department of Clinical Sciences and Translational Medicine, University of Roma “Tor Vergata”, I-00133 Roma, Italy;2. Interuniversity Consortium for the Research on the Chemistry of Metals in Biological Systems, I-70126 Bari, Italy;3. Department of Physics, University of Genova, I-16146 Genova, Italy;4. Department of Biomedical Sciences, University of Antwerp, B-2610 Antwerp, Belgium;5. Department of Chemistry, University of Genova, I-16146 Genova, Italy;6. Interdepartmental Laboratory of Electron Microscopy, University Roma Tre, I-00146 Roma, Italy;g National Institute of Biostructures and Biosystems, I-00136 Roma, Italy;h Department of Biosciences, University of Milano, I-20133 Milano, Italy;i CNR-IBF and CIMAINA, University of Milano, I-20133 Milano, Italy |
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| Abstract: | Functional and structural properties of protoglobin from Methanosarcina acetivorans, whose Cys(101)E20 residue was mutated to Ser (MaPgb*), and of mutants missing either the first 20 N-terminal amino acids (MaPgb*-ΔN20 mutant), or the first 33 N-terminal amino acids [N-terminal loop of 20 amino acids and a 13-residue Z-helix, preceding the globin fold A-helix; (MaPgb*-ΔN20Z mutant)] have been investigated. In keeping with the MaPgb*-ΔN20 mutant crystal structure, here reported at 2.0 Å resolution, which shows an increased exposure of the haem propionates to the solvent, the analysis of ligand binding kinetics highlights high accessibility of ligands to the haem pocket in ferric MaPgb*-ΔN20. CO binding to ferrous MaPgb*-ΔN20 displays a marked biphasic behavior, with a fast binding process close to that observed in MaPgb* and a slow carbonylation process, characterized by a rate-limiting step. Conversely, removal of the first 33 residues induces a substantial perturbation of the overall MaPgb* structure, with loss of α-helical content and potential partial collapse of the protein chain. As such, ligand binding kinetics are characterized by very slow rates that are independent of ligand concentration, this being indicative of a high energy barrier for ligand access to the haem, possibly due to localized misfolding. This article is part of a Special Issue entitled: Oxygen Binding and Sensing Proteins. |
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| Keywords: | Pgb, protoglobin GCS, globin coupled sensors MaPgb, Methanosarcina acetivorans protoglobin MaPgb*, Methanosarcina acetivorans protoglobin whose Cys(101)E20 is replaced by Ser Hb, hemoglobin Mb, myoglobin MaPgb*-ΔN20, Methanosarcina acetivorans protoglobin whose first 20 amino acids at the N-terminal have been deleted MaPgb*-ΔN20Z, Methanosarcina acetivorans protoglobin whose 33 N-terminal amino acids have been removed BIS&ndash TRIS propane, 1,3-bis(tris(hydroxymethyl)methylamino)propane CD, circular dichroism MaPgb*-Fe(ΙΙ), ferrous MaPgb* MaPgb*-ΔN20-Fe(II), ferrous MaPgb*-ΔN20 MaPgb*-ΔN20Z-Fe(II), ferrous MaPgb*-ΔN20Z MaPgb*-ΔN20-Fe(III), ferric MaPgb*-ΔN20 MaPgb*-Fe(ΙΙΙ), ferric MaPgb* MaPgb*-ΔN20Z-Fe(III), ferric MaPgb*-ΔN20Z MaPgb*-Fe(II)-CO, carbonylated MaPgb*-Fe(II) MaPgb*-ΔN20-Fe(II)-CO, carbonylated MaPgb*-ΔN20-Fe(II) MaPgb*-ΔN20Z-Fe(II)-CO, carbonylated MaPgb*-ΔN20Z-Fe(II) MaPgb*-ΔN20-Fe(III)-cyanide, cyanide-bound MaPgb*-ΔN20-Fe(III) MaPgb*-Fe(II)-O2, oxygenated MaPgb*-Fe(II) MaPgb*-Fe(III)-cyanide, cyanide-bound MaPgb*-Fe(III) MaPgb*-ΔΝ20-Fe(ΙΙΙ)-formate, formate-bound MaPgb*-ΔN20-Fe(ΙΙΙ) |
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