Recombinant [Pheβ63]Hemoglobin Shows Rapid Oxidation of the β Chains and Low‐Affinity, Non‐Cooperative Oxygen Binding to the α Subunits

Kiger, Laurent; Baudin, V.; Desbois, Alain; Pagnier, J.; Kister, J.; Griffon, Nathalie; Henry, Y.; Poyart, Claire; Marden, Michael C.

doi:10.1111/j.1432-1033.1997.0365a.x

Cited by 7 publications

(3 citation statements)

References 49 publications

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“…Their increased rates may be attributed to relief of steric restraints close to the heme, coupled with partial breakdown of the histidine gate, leading to very high rates of oxygen dissociation from the sperm whale mutants. In this connection it is of interest that in βE7Phe, the only apolar mutant of HbA studied, the intrinsic ligand binding parameters are altered only slightly with respect to natural HbA since the effect of the mutation can be entirely accounted for in terms of a stabilization of the R-state (6,26). In turn, the behavior of the HbA-βE7Phe mutant is in accordance with the suggestion that the distal pocket in liganded β subunits is more open than in myoglobin (27).…”

Section: Discussionsupporting

confidence: 67%

The Apolar Distal Histidine Mutant (His69→Val) of the Homodimeric Scapharca Hemoglobin Is in an R-like Conformation

et al. 1998

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The effect of the apolar mutation of the distal histidine (His69-->Val) has been studied in the cooperative homodimeric hemoglobin from the mollusc Scapharca inaequivalvis. Absorption, circular dichroism, and resonance Raman spectroscopy point to a more symmetric heme structure of the deoxy derivative, which is indicative of an R-like conformation of the deoxy heme. Resonance Raman spectroscopy also brings out alterations in the geometry and interactions of the bound CO molecule. The iron-carbon stretching frequency is decreased by about 30 cm-1 with respect to the native protein, while the diatomic ligand stretching frequency is increased by about the same degree. Consistent with the structural changes, the ligand binding properties are significantly altered. In the mutant the overall rate and the affinity for CO binding are increased about 100-fold with respect to the native protein, and cooperativity is abolished. In addition, the amplitude and the rate of the geminate rebinding process increase significantly. This finding may be correlated to the longer average residence time of the photolyzed CO molecule within the heme pocket of the H69V mutant, as indicated by molecular dynamics simulations.

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Section: Discussionsupporting

confidence: 67%

The Apolar Distal Histidine Mutant (His69→Val) of the Homodimeric Scapharca Hemoglobin Is in an R-like Conformation

et al. 1998

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“…3), which decrease drastically at low pH due to pronounced Bohr effects, indicating that the upper part of their O 2 binding curves is not exploited in life (14,94,187,259,260,383,549,649). The presence of a distal Phe observed in the sequence of a Eudistylia Chl globin chain (L. Moens, personal communication) correlates with the low O 2 affinity of the native complex since a distal Phe substitution in HbA leads to decrease in affinity (297). Studies of Eudistylia Chl structure using chemical dissociation and ESI-MS (211,441) have shown it to consist of disulfide-bonded dimers and tetramers of several globin chains, which form noncovalent tetramers and dodecamer subassemblies, respectively.…”

Section: Giant Hbl Hbs and Chls: Summit Of Hb Complexitymentioning

confidence: 98%

Nonvertebrate Hemoglobins: Functions and Molecular Adaptations

Weber

Vinogradov

2001

Physiological Reviews

453

404

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Hemoglobin (Hb) occurs in all the kingdoms of living organisms. Its distribution is episodic among the nonvertebrate groups in contrast to vertebrates. Nonvertebrate Hbs range from single-chain globins found in bacteria, algae, protozoa, and plants to large, multisubunit, multidomain Hbs found in nematodes, molluscs and crustaceans, and the giant annelid and vestimentiferan Hbs comprised of globin and nonglobin subunits. Chimeric hemoglobins have been found recently in bacteria and fungi. Hb occurs intracellularly in specific tissues and in circulating red blood cells (RBCs) and freely dissolved in various body fluids. In addition to transporting and storing O(2) and facilitating its diffusion, several novel Hb functions have emerged, including control of nitric oxide (NO) levels in microorganisms, use of NO to control the level of O(2) in nematodes, binding and transport of sulfide in endosymbiont-harboring species and protection against sulfide, scavenging of O(2 )in symbiotic leguminous plants, O(2 )sensing in bacteria and archaebacteria, and dehaloperoxidase activity useful in detoxification of chlorinated materials. This review focuses on the extensive variation in the functional properties of nonvertebrate Hbs, their O(2 )binding affinities, their homotropic interactions (cooperativity), and the sensitivities of these parameters to temperature and heterotropic effectors such as protons and cations. Whenever possible, it attempts to relate the ligand binding properties to the known molecular structures. The divergent and convergent evolutionary trends evident in the structures and functions of nonvertebrate Hbs appear to be adaptive in extending the inhabitable environment available to Hb-containing organisms.

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“…It is wellknown from several recent literature works that a pentacoordinated species presents simultaneously a less intense and blue-shifted Soret band as compared to a hexacoordinated species. This behavior has been observed both in model systems based in coordination compounds [6,14] as well as in various heme proteins [15][16][17][18][19][20]. Visca and co-workers [21] argue that a Soret band from a pentacoordinated species usually presents a molar absorptivity (e) which is only 60% of that of a hexacoordinated species.…”

Section: Association Constant (K B )mentioning

confidence: 88%

Phosphate group effects upon the equilibrium of iron(III) meso-tetrakis (4-N-methylpyridiniumyl) porphyrin in aqueous solution

Santiago

Moreira

Tabak

2006

Journal of Inorganic Biochemistry

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Recombinant [Pheβ63]Hemoglobin Shows Rapid Oxidation of the β Chains and Low‐Affinity, Non‐Cooperative Oxygen Binding to the α Subunits

Cited by 7 publications

References 49 publications

The Apolar Distal Histidine Mutant (His69→Val) of the Homodimeric Scapharca Hemoglobin Is in an R-like Conformation

The Apolar Distal Histidine Mutant (His69→Val) of the Homodimeric Scapharca Hemoglobin Is in an R-like Conformation

Nonvertebrate Hemoglobins: Functions and Molecular Adaptations

Phosphate group effects upon the equilibrium of iron(III) meso-tetrakis (4-N-methylpyridiniumyl) porphyrin in aqueous solution

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