Bohr effect in monomeric insect haemoglobins controlled by O2 off-rate and modulated by haem-rotational disorder

Gersonde, Klaus; Sick, H.; Overkamp, Matthias; Smith, Kevin M.; Parish, Daniel W.

doi:10.1111/j.1432-1033.1986.tb09681.x

Cited by 41 publications

(31 citation statements)

References 32 publications

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“…This observation is consistent with the invariance of resonance Raman and visible spectra of the CO derivative within the same pH range (9,34,39). Also, in the monomeric globin of the insect Chironomus thummi thummi, the Bohr effect is larger when O 2 rather than CO is the heme ligand (40). These observations support the conclusion that in NGB the heme-bound O 2 , which in globins, including NGB (9), has a Fe(III)O 2 .…”

Section: On the Reaction Of 4-pds With Ngb And Human Hbasupporting

confidence: 79%

Allosteric Regulation and Temperature Dependence of Oxygen Binding in Human Neuroglobin and Cytoglobin

Fago

Hundahl

Dewilde

et al. 2004

Journal of Biological Chemistry

172

225

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Two new globin proteins have recently been discovered in vertebrates, neuroglobin in neurons and cytoglobin in all tissues, both showing heme hexacoordination by the distal His(E7) in the absence of gaseous ligands. In analogy to hemoglobin and myoglobin, neuroglobin and cytoglobin are supposedly involved in O 2 storage and delivery, although their physiological role remains to be solved. Here we report O 2 equilibria of recombinant human neuroglobin (NGB) and cytoglobin (CYGB) measured under close to physiological conditions and at varying temperature and pH ranges. NGB shows both alkaline and acid Bohr effects (pH-dependent O 2 affinity) and temperature-dependent enthalpy of oxygenation. O 2 and CO binding equilibrium studies on neuroglobin mutants strongly suggest that the bound O 2 is stabilized by interactions with His(E7) and that this residue functions as a major Bohr group in the presence of Lys(E10). As shown by the titration of free thiols with 4,4 -dithiodipyridine and by mass spectrometry, this mechanism of modulating O 2 affinity is independent of formation of an internal disulfide bond under the experimental conditions used, which stabilize thiols in the reduced form. In CYGB, O 2 binding is cooperative, consistent with its proposed dimeric structure. Similar to myoglobin but in contrast to NGB, O 2 binding to CYGB is pH-independent and exothermic throughout the temperature range investigated. Our data support the hypothesis that CYGB may be involved in O 2 -requiring metabolic processes. In contrast, the lower O 2 affinity in NGB does not appear compatible with a physiological role involving mitochondrial O 2 supply at the low O 2 tensions found within neurons.

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Section: On the Reaction Of 4-pds With Ngb And Human Hbasupporting

confidence: 79%

Allosteric Regulation and Temperature Dependence of Oxygen Binding in Human Neuroglobin and Cytoglobin

Fago

Hundahl

Dewilde

et al. 2004

Journal of Biological Chemistry

172

225

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“…Both globins also have a positively charged amino acid (arginine instead of lysine) at position 67. Remarkably, as in murine Ngb, the heme binds to the globin in two orientations in Chironomus Hb (42,43).…”

Section: Resultsmentioning

confidence: 99%

Structural Dynamics in the Active Site of Murine Neuroglobin and Its Effects on Ligand Binding

Nienhaus

Kriegl

Nienhaus

2004

Journal of Biological Chemistry

132

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We have examined the effects of active site residues on ligand binding to the heme iron of mouse neuroglobin using steady-state and time-resolved visible spectroscopy. Absorption spectra of the native protein, mutants H64L and K67L and double mutant H64L/K67L were recorded for the ferric and ferrous states over a wide pH range (pH 4 -11), which allowed us to identify a number of different species with different ligands at the sixth coordination, to characterize their spectroscopic properties, and to determine the pK values of active site residues. In flash photolysis experiments on CO-ligated samples, reaction intermediates and the competition of ligands for the sixth coordination were studied. These data provide insights into structural changes in the active site and the role of the key residues His 64 and Lys 67 . His 64 interferes with exogenous ligand access to the heme iron. Lys 67 sequesters the distal pocket from the solvent. The heme iron is very reactive, as inferred from the fast ligand binding kinetics and the ability to bind water or hydroxyl ligands to the ferrous heme. Fast bond formation favors geminate rebinding; yet the large fraction of bimolecular rebinding observed in the kinetics implies that ligand escape from the distal pocket is highly efficient. Even slight pH variations cause pronounced changes in the association rate of exogenous ligands near physiological pH, which may be important in functional processes.

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“…Differences of possible physiological relevance have been reported for two other heme proteins, however. A difference of 27 mV in the reduction potential of the two isomers of cytochrome has been found (Walker et al, 1988), and the Bohr effect of Chironomus thummi thummi hemoglobin has been shown to be different for the two isomers (Gersonde et al, 1986).…”

Section: Heme Isomerismmentioning

confidence: 99%

Insulin & Related Proteins - Structure to Function and Pharmacology

Dieken¹,

Federwisch²,

Meyts³

2002

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Bohr effect in monomeric insect haemoglobins controlled by O2 off-rate and modulated by haem-rotational disorder

Cited by 41 publications

References 32 publications

Allosteric Regulation and Temperature Dependence of Oxygen Binding in Human Neuroglobin and Cytoglobin

Allosteric Regulation and Temperature Dependence of Oxygen Binding in Human Neuroglobin and Cytoglobin

Structural Dynamics in the Active Site of Murine Neuroglobin and Its Effects on Ligand Binding

Insulin & Related Proteins - Structure to Function and Pharmacology

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