Biological chemistry Hoppe-Seyler
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Biol. Chem. Hoppe-Seyler · Jul 1989
High-altitude respiration of falconiformes. The primary structures and functional properties of the major and minor hemoglobin components of the adult White-Headed Vulture (Trigonoceps occipitalis, Aegypiinae).
The primary structures of the hemoglobin components Hb A and Hb D of White-Headed Vulture (Trigonoceps occipitalis) are presented. The globin chains were separated on CM-Cellulose in 8M urea buffer, the components by FPLC in phosphate buffers. The amino-acid sequences were established by automatic Edman degradation of the globin chains and of the tryptic peptides in liquid phase and gas-phase sequenators. ⋯ At pH 7.5 and 38 degrees C P50 values of 0.80 and 0.64 kPa (6.0 and 4.8 mm Hg), respectively. Both hemoglobins showed similar Bohr factors displayed a pronounced sensitivity to inositol hexakis(phosphate), which increased P50 values of Hbs A and D to 4.0 and 3.6 kPa (30 and 26 mm Hg), respectively. The molecular and physiological significance of the findings is discussed with special reference to oxygen transport by hemoglobin at high altitude.
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Biol. Chem. Hoppe-Seyler · May 1988
Comparative StudyStructural adaptation of bird hemoglobins to high-altitude respiration and the primary sequences of black-headed gull (Larus ridibundus, Charadriiformes) alpha A- and beta/beta'-chains.
Two hemoglobin components HbA (alpha A2 beta 2) and (alpha D2 beta 2) have been detected by analytical electrophoresis in the lysed erythrocytes of the adult Black-Headed Gull (Larus ridibundus). We report the complete primary structure of the alpha A- and beta-chains of the major hemoglobin component HbA. Following the chain separation and isolation of the tryptic peptides by RP-HPLC, the amino-acid sequence was established by automatic Edman degradation in spinning cup and gas-phase sequencers. ⋯ The presence of beta/beta'-chains is indicated by the observation of Ile/Leu at position beta 78. An exchange at position beta 55 (D6)Leu-Asn which is known to be involved in the alpha 1 beta 1-interface with alpha 119(H2)Pro has been found. It is suggested that packing contacts in the alpha 1 beta 1-interface are important for high altitude respiration in birds.
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Biol. Chem. Hoppe-Seyler · Apr 1988
Comparative StudyHigh altitude and hemoglobin function in the vultures Gyps rueppellii and Aegypius monachus.
Functional characteristics of the stripped composite hemoglobins (Hbs) of the vultures Gyps rueppellii and Aegypius monachus that can fly at extremely high altitudes, and of component Hbs of G. rueppellii are reported, in relation to influences of pH, temperature and inositol hexaphosphate. G. rueppellii Hbs A, A' and D represent a sequence of increasing oxygen affinity, which is opposite to earlier results on avian Hb components, but correlates with two alpha-chain substitutions that predictably affect oxygen affinity. The homo- and heterotropic interactions in oxygen binding are related to primary structures of the constituent polypeptide chains to trace molecular adaptations to high-altitude respiration, and to physiological factors (pulmonary hypoxia and hypocapnia, body temperature shifts, and lung and nasal gas and heat exchange) to discern their possible survival value at altitudes of 11,300 m.
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Biol. Chem. Hoppe-Seyler · Apr 1988
High-altitude respiration of birds. Structural adaptations in the major and minor hemoglobin components of adult Rüppell's Griffon (Gyps rueppellii, Aegypiinae): a new molecular pattern for hypoxic tolerance.
The primary structures of the hemoglobins Hb A, Hb A', Hb D and Hb D' of Rüppell's Griffon (Gyps rueppellii), which can fly as high as 11,300 m, are presented. The globin chains were separated on CM-Cellulose in 8M urea buffers, the four hemoglobin components by FPLC in phosphate buffers. The amino-acid sequences of five globin chains were established by automatic Edman degradation of the globin chains and of the tryptic peptides in liquid-phase and gas-phase sequenators. ⋯ This cascade tallies exactly with oxygen affinities measured in the isolated components and predicts oxygen transport by the composite hemoglobins over an extended range of oxygen affinities. It is contended that the mechanisms of duplication of the alpha-genome (creating four hemoglobins) and of nucleotide replacements (creating different functional properties) are responsible for this remarkable hypoxic tolerance to 11,300 m. Based on this pattern the hypoxic tolerances of other vultures are predicted.
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Biol. Chem. Hoppe-Seyler · Dec 1987
The primary structures of the major and minor hemoglobin-components of adult Andean goose (Chloephaga melanoptera, Anatidae): the mutation Leu----Ser in position 55 of the beta-chains.
The primary structures of the hemoglobin components Hb A and Hb D of the adult Andean Goose (Chloephaga melanoptera) are presented. The globin chains were separated on CM-Cellulose in 8M urea buffer. The amino-acid sequences were established by automatic Edman degradation of the globin chains and of the tryptic peptides in liquid- and gas-phase sequenators. ⋯ These results show that Hb D can be considered a biological reserve to enlarge situatively the normal hemoglobin function. A general molecular pattern for permanent (selective advantage of high intrinsic oxygen affinity) and transitory (selective advantage of graded oxygen affinities) adaptation to hypoxia is discussed. A survey on the sequence homology of the globin chains of geese (Anserinae) and ducks (Anatinae) is given.