Chimeric beta-EF3-alpha hemoglobin (Psi): energetics of subunit interaction and ligand binding
| Autor: | Kiger L, Poyart C, Stuart J. Edelstein, Donald J. Abraham, Pagnier J, M Marden, Dumoulin A, Promé D |
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| Rok vydání: | 1998 |
| Předmět: |
Recombinant Fusion Proteins
Size-exclusion chromatography Mass spectrometry Ligands Biochemistry Mass Spectrometry Allosteric Regulation Mole Humans Globin Carbon Monoxide Binding Sites Molecular mass Chemistry Globins Oxygen Crystallography Kinetics Spectrometry Fluorescence Energy Transfer Chromatography Gel Protein folding Spectrophotometry Ultraviolet Hemoglobin Isoelectric Focusing Dimerization Oxygen binding |
| Zdroj: | Biochemistry. 37(20) |
| ISSN: | 0006-2960 |
| Popis: | Among the numerous strategies to design an oxygen carrier, we outline in this work the engineering of a stable homotetrameric hemoglobin, expressed in Escherichia coli. The chimeric globin (Psi) consists of the first 79 residues of human beta globin (corresponding to positions NA1 --EF3) followed by the final 67 residues of human alpha globin (corresponding to positions EF3 --HC3). The molecular mass for beta-EF3-alpha (Psi) globin was measured using mass spectrometry to be equal to its theoretical value: 15782 Da. Correct protein folding was assessed by UV/visible and fluorescence spectra. The subunit interaction free energies were estimated by HPLC gel filtration. In the cyanometHb species, the formation of the dimer-tetramer interface is 2 kcal/mol less favorable (Delta G = -7 kcal/mol) than that of Hb A (Delta G = -9 kcal/mol), whereas the dimer-monomer interface is tightly assembled (-10 kcal/mol) as for the Hb A alpha 1 beta 1 interface. In contrast to Hb A, oxygen binding to Psi Hb is not cooperative. The free energy for binding four oxygen molecules to a Psi homotetramer is slightly increased compared to a Hb A heterotetramer (-28 and -27.5 kcal/4 mol of O2, respectively). The intrinsic O2 affinity of a Psi homodimer is 6-fold higher than that of a homotetramer. The linkage scheme between dimer-tetramer subunit assembly and the noncooperative oxygenation of Psi Hb predicts a stabilization of the tetramer after ligand release. This protein mechanism resembles that of Hb A for which the dimers exhibit a 100-fold higher O2 affinity relative to deoxy tetramers (which are 10(5) times more stable than oxy tetramers). A potent allosteric effector of Hb A, RSR4, binds to Psi Hb tetramers, inducing a decrease of the overall O2 affinity. Since RSR4 interacts specifically with two binding sites of deoxy Hb A, we propose that the chimeric tetramer folding is close to this native structure. |
| Databáze: | OpenAIRE |
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