Heterotropic effectors control the hemoglobin function by interacting with its T and R states--a new view on the principle of allostery.
暂无分享,去创建一个
[1] Kiyohiro Imai,et al. Global Allostery Model of Hemoglobin , 2002, The Journal of Biological Chemistry.
[2] P. Ascenzi,et al. Coupling of the Oxygen-linked Interaction Energy for Inositol Hexakisphosphate and Bezafibrate Binding to Human HbA0 * , 1999, The Journal of Biological Chemistry.
[3] E. Bendixen,et al. The Anodic Hemoglobin of Anguilla anguilla , 1997, The Journal of Biological Chemistry.
[4] Elizabeth D. Getzoff,et al. Structural basis for the Root effect in haemoglobin , 1996, Nature Structural Biology.
[5] M. Perutz. Cause of the Root effect in fish haemoglobins , 1996, Nature Structural Biology.
[6] N. Komiyama,et al. Structure of deoxyhaemoglobin of the antarctic fish Pagothenia bernacchii with an analysis of the structural basis of the root effect by comparison of the liganded and unliganded haemoglobin structures. , 1995, Journal of molecular biology.
[7] M. Perutz,et al. The chloride effect in human haemoglobin. A new kind of allosteric mechanism. , 1994, Journal of molecular biology.
[8] Y. X. Zhou,et al. Oxygen equilibrium studies of cross-linked iron-cobalt hybrid hemoglobins. Models for partially ligated intermediates of cobalt hemoglobin. , 1993, The Journal of biological chemistry.
[9] M. Marden,et al. T-state hemoglobin with four ligands bound. , 1988, Biochemistry.
[10] M. Karplus,et al. Analysis of proton release in oxygen binding by hemoglobin: implications for the cooperative mechanism. , 1988, Biochemistry.
[11] M. Brunori,et al. Evidence for two oxygen-linked binding sites for polyanions in dromedary hemoglobin. , 1985, European journal of biochemistry.
[12] M. Karplus,et al. Structure-specific model of hemoglobin cooperativity. , 1983, Proceedings of the National Academy of Sciences of the United States of America.
[13] M. Perutz,et al. BEZAFIBRATE LOWERS OXYGEN AFFINITY OF HAEMOGLOBIN , 1983, The Lancet.
[14] M. Brunori,et al. Stereochemistry of cooperative effects in fish and amphibian haemoglobins , 1982, Nature.
[15] M. Brunori,et al. Purification and functional properties of the hemoglobin components from the rat (Wistar). , 1981, European journal of biochemistry.
[16] J. Wyman,et al. 35Cl NMR study of the release of chloride on oxygen binding to human hemoglobin , 1978, FEBS letters.
[17] T. Yonetani,et al. The hemoglobin-oxygen equilibrium associated with sub-unit dissociation I. An approach with the hill scheme , 1977 .
[18] M. Karplus,et al. Analysis of the interaction of organic phosphates with hemoglobin. , 1976, Biochemistry.
[19] M. Brunori,et al. Identification of chloride-binding sites in hemoglobin by nuclear-magnetic-resonance quadrupole-relaxation studies of hemoglobin digests. , 1975, European journal of biochemistry.
[20] Dennis P. Nelson,et al. Calorimetric studies of hemoglobin function, the binding of 2,3-diphosphoglycerate and inositol hexaphosphate to human hemoglobin A. , 1974, The Journal of biological chemistry.
[21] L. Janssen,et al. The interaction of chloride ions with human hemoglobin. , 1974, Biochemical and biophysical research communications.
[22] L. Janssen,et al. The interaction of 2,3-diphosphoglycerate on human deoxy and oxyhemoglobin. , 1973, Biochemical and biophysical research communications.
[23] K. Imai,et al. Analysis of oxygen equilibrium of hemoglobin and control mechanism of organic phosphates. , 1973, Biochemistry.
[24] M Karplus,et al. A mathematical model for structure-function relations in hemoglobin. , 1972, Journal of molecular biology.
[25] M. Raftery,et al. 31 P-NMR studies of the release of diphospholygeric acid on carbon monoxide binding to hemoglobin. , 1972, Biochemical and biophysical research communications.
[26] J. Wyman,et al. Nuclear magnetic resonance quadrupole relaxation studies of chloride binding to human oxy- and deoxyhaemoglobin. , 1972, Journal of molecular biology.
[27] Q. Gibson,et al. The effect of inositol hexaphosphate on the kinetics of CO and O 2 binding by human hemoglobin. , 1971, The Journal of biological chemistry.
[28] L. Janssen,et al. Effect of 2,3-diphosphoglycerate on the Bohr effect of human adult hemoglobin. , 1971, Biochemical and biophysical research communications.
[29] G. Jänig,et al. Interaction of haemoglobin with ions binding of inositol hexaphosphate to human haemoglobin a. , 1971, FEBS letters.
[30] M. Perutz. Stereochemistry of Cooperative Effects in Haemoglobin: Haem–Haem Interaction and the Problem of Allostery , 1970, Nature.
[31] Q. Gibson. The reaction of oxygen with hemoglobin and the kinetic basis of the effect of salt on binding of oxygen. , 1970, Journal of Biological Chemistry.
[32] J. Changeux,et al. ON THE NATURE OF ALLOSTERIC TRANSITIONS: A PLAUSIBLE MODEL. , 1965, Journal of molecular biology.
[33] M. Brunori,et al. STUDIES ON THE RELATIONS BETWEEN MOLECULAR AND FUNCTIONAL PROPERTIES OF HEMOGLOBIN. V. THE INFLUENCE OF TEMPERATURE ON THE BOHR EFFECT IN HUMAN AND IN HORSE HEMOGLOBIN. , 1965, The Journal of biological chemistry.
[34] T. Brittain. The Root effect. , 1987, Comparative biochemistry and physiology. B, Comparative biochemistry.