Primary structure, biochemical and physiological aspects of hemoglobin from South American lungfish (Lepidosiren paradoxus, Dipnoi)

The South American Lungfish has only one hemoglobin component. The complete amino-acid sequence of this hemoglobin is presented. A large quantity of carbonate dehydratase from the lungfish erythrocytes was also isolated. The carboxymethylated chains, obtained by separation of globin on DEAE-Sephacel, were submitted to tryptic digestion and chemical cleavage. The isolation of tryptic peptides was achieved either by Dowex-50 chromatography or by high performance liquid chromatography. The alignment of peptides was performed by homology with the previously established sequences of the carp and goldfish hemoglobins. The overlapping peptides confirmed this sequence. The alpha chains have 143 residues, the beta chains 147. The relation between the primary structure and the physiological properties of lungfish hemoglobin are discussed.     

Pre- and perinatal oxygen transport in mammals: the embryonic hemoglobins of the domestic pig (Sus scrofa domestica)

Pigs express two globin genes of beta-type, the epsilon- and chains during their embryonic stage. With the alpha- and epsilon-chains they form four embryonic hemoglobins. We describe here in detail the experimental procedures for sequencing the epsilon- and chains from the pig (Sus scrofa domestica) and we discuss the data with respect to their special functional properties. From the components Gower I and Heide I, we obtained all embryonic chains by chromatography on CM-Cellulose. The sequence of the tryptic peptides of the beta-type chains was established by automatic Edman-Begg degradation. They were aligned by comparison with the corresponding human chains. The epsilon-chains from man and pig differ in 20 positions, porcine and epsilon-chains only in 4 positions. Up to now these have only been found in pigs. A fetal hemoglobin (gamma-chains) was not observed. As a result of this work the sequences of all peptide chains of pig's hemoglobin are determined.     

Carnivora: the primary structure of the beach marten (Martes foina, Mustelidae) hemoglobin

The primary structures of alpha- and beta-chains from the hemoglobin of the Beach Marten (Martes foina, Carnivora) are presented. The globin chains were separated on CM-cellulose in 8M urea buffer. The amino-acid sequences were established by automatic liquid- and gas-phase Edman degradation of the intact chains and the tryptic peptides from oxidized chains. Comparison of the sequences with human hemoglobin shows 21 exchanges in the alpha- and 12 in the beta-chains. The differences concerning heme and interchain contact sites as well as the substitution alpha 77 (EF6)Pro----Ala are discussed. The latter is observed for the first time in a mammalian hemoglobin. The sequences are compared with those of other Carnivora. The beta-chains of Martes foina and Pteronura brasiliensis (Giant Otter) are found to be identical, but their alpha-chains differ in 7 positions. The surprising small numbers of exchanges between the hemoglobin from Beach marten and that from Lesser and Greater Panda are discussed.     

Amino acid sequences of the alpha and beta chains of adult hemoglobin of the brown lemur, Lemur fulvus fulvus.

Globin prepared from hemoglobin of the brown lemur (Lemur fulvus fulvus) was separated into alpha and beta chains by chromatography on a CM 52 column. The S-aminoethylated alpha and beta chains were each digested with trypsin and resulting peptides were isolated. The amino acid sequences of the tryptic peptides were established. The ordering of these peptides in the alpha and beta chains was deduced from the homology of their amino acid sequences with that of human adult hemoglobin. The primary structure of brown lemur hemoglobin thus obtained differs from that of human hemoglobin in 15 amino acids in the alpha chain and 26 in the beta chain.     

Carnivora: the primary structure of the hemoglobin from the silver fox (Vulpes vulpes var., Canidae)

The primary structure determination of the hemoglobin alpha- and beta-chains from the silver fox (Vulpes vulpes var., Canidae) is described. The separation of the chains could be achieved directly from the hemoglobin by RP-HPLC as well as by column chromatography of the globin using carboxymethyl-cellulose. Following tryptic digestion of the chains, the peptides were isolated by RP-HPLC. Amino-acid sequences were determined by Edman degradation in liquid and gas phase sequencers. The peptides could be aligned by homology with human and other Carnivora hemoglobins. Compared to human hemoglobin the alpha- and beta-chains of the silver fox exhibit 24 and 13 amino-acid exchanges, respectively. They differ by one alpha- and two beta-chain replacements from the domestic dog and the coyote. The substitutions affecting contact positions are discussed.     

Carnivora: primary structure of the hemoglobin from the spotted hyena (Crocuta crocuta, Hyenidae)

The primary structure of the alpha- and beta-chains of hemoglobin from spotted hyena (Crocuta crocuta, Hyenidae) is presented. The structure-function relationship is discussed. The separation of the chains directly from hemoglobin was performed by RP-HPLC. After tryptic digestion of the chains, the peptides were isolated by RP-HPLC. Amino-acid sequences were determined by Edman degradation in liquid- and gas-phase sequencers. The alignment of the tryptic peptides was made by homology with human and other Carnivora hemoglobins. The hemoglobin from spotted hyena (Crocuta crocuta) exhibits in its alpha- and beta-chains 22 and 20 exchanges, respectively, compared to human hemoglobin. In the alpha-chains, two alpha 1 beta 1-contacts are exchanged. In the beta-chains five exchanges involve one alpha 1 beta 1-contact, one alpha 1 beta 2-contact, one heme contact, and two 2,3-DPG-binding sites.     

Isolation of polypeptide chains with heme from the extracellular hemoglobin of Amphitrite ornata (Polychaeta, Annelida)

From the extracellular hemoglobin of Amphitrite ornata four constituent polypeptide chains containing heme and designated AI, AII, BI and BII according to the elution order were obtained by DE52-cellulose ion-exchange chromatography with dithiothreitol (DTT) as a reducing reagent. The NH2-terminal sequences for the chains are AI, Asp-Ser-Asn-Ala; AII, Glu-Tyr-Thr; BI, Asp-Phe-Asn-Thr; and BII, Asp-Ser-Glu. Each of the isolated chains showed spectra similar to those of vertebrate hemoglobins, and they bound oxygen reversibly. Acid urea polyacrylamide gel electrophoresis separated four bands, corresponding to the isolated chain, from the intact extracellular hemoglobin reduced with DTT. These results and our failure to detect an appreciable amount of non-heme protein suggest that the extracellular hemoglobin of A. ornata is composed of four polypeptide chains, each containing a heme.     

Amino-acid sequence of the alpha and beta chains of adult hemoglobin of the harbor seal, Phoca vitulina

The complete amino-acid sequences of the alpha and beta chains of adult hemoglobin of harbor seal, Phoca vitulina that belong to carnivora were determined as follows. The alpha and beta chains isolated by chromatography on a CM-cellulose column were digested with trypsin after S-carboxymethylation. Amino-acid sequences of the tryptic peptides derived from both chains were analysed. Comparing the primary structures of the alpha and beta chains of the seal hemoglobin with those of human, dog, bear, badger and cat, 19, 12, 12, 11, and 16 substitutions, respectively, were recognized in the alpha chain, and 12, 10, 4, 6, and 19 (22) in the beta chain.     

Primary structure of hemoglobin of the polar bear (Ursus maritimus, Carnivora) and the Asiatic black bear (Ursus tibetanus, Carnivora

The adult Polar and Asiatic Black Bear have one hemoglobin component each. The complete amino-acid sequences of their alpha- and beta-chains are presented. Their primary structures were determined by sequencing the tryptic and prolyl peptides. The alignment of these peptides was deduced from homology to human hemoglobin chains. The hemoglobin sequences of the two species proved to be identical. The evolutionary aspects of this result are discussed. A table of identical hemoglobin sequences from different species is given.     

Hemoglobins, XXIX. Sequence analysis of a dimeric hemoglobin (erythrocruorin), CTT-X, of Chironomus thummi thummi (Diptera).

The amino acid sequences of one of the dimeric hemoglobin components, CTT-X, of Chironomus thummi thummi (Diptera) are given. The sequences were determined by automatic Edman degradation of tryptic peptides and peptides obtained by specific chemical cleavages. CTT-X has two different polypeptide chains, each with 151 amino acid residues. The two polypeptide chains differ only in one amino acid. The sequences are discussed in the light of the sequences of other related heme-proteins.     

Amino acid sequences of the alpha and beta chains of adult hemoglobin of the slender loris, Loris tardigradus.

alpha and beta chains from adult hemoglobin of the slender loris (Loris tardigradus) were isolated by Amberlite CG-50 column chromatography. After S-aminoethylation, both chains were digested with trypsin and the amino acid sequences of the tryptic peptides obtained were analyzed. Further, the order of these tryptic peptides in each chain was deduced from their homology with the primary structures of alpha and beta chains of human adult hemoglobin. Comparing the primary structures of the alpha and beta chains of adult hemoglobin of the slender loris thus obtained with those of adult hemoglobin of the slow loris, 4 amino acid substitutions in the alpha chains and 2 in the beta chains were recognized.     

Amino-acid sequences of the alpha and beta chains of adult hemoglobins of the Grand Galago, Galago crassicaudatus

The adult Grand Galago (Galago crassicaudatus) was found to have two hemoglobin components (Hb I and Hb II) which were separated by carboxymethyl cellulose column chromatography. The alpha and beta chains of each component were isolated. The tryptic peptides of the alpha and beta chains were each isolated and sequenced by the conventional method. The alignment of these peptides in each chain was deduced from the homology of their sequences with that of human adult hemoglobin. The alpha chains from Hb I and Hb II were considered to be identical. On the other hand, there was only one amino-acid difference between the two beta chains at the 125th residue from the N-terminus.     

Amino-acid sequences of the two major components of adult hemoglobins from the stump-tail monkey, Macaca speciosa

The adult Stump-Tail Monkey (Macaca speciosa) was found to have two major hemoglobin components (Hb 1 and Hb 2) which were separated by carboxymethyl cellulose column chromatography. The tryptic peptides of the alpha and beta chains from the two components were isolated and sequenced. The peptides were aligned based on the homology of their sequences with that of human adult hemoglobin. Only one amino-acid difference was found between the alpha chains from Hb 1 and Hb 2 at the 15th position from the N-terminus. On the other hand, the beta chains from the two hemoglobin components were considered to be identical.     

The primary structure of hemoglobin from goldfish (Carassius auratus)

The primary structures of the alpha- and beta-chains from goldfish hemoglobin are given. The globin chains were separated by gel filtration after air-oxidation of globin. After chemical and enzymatical cleavage of the chains, the peptides were isolated by gel filtration and ion exchange chromatography on Dowex. The fish-chains have one residue more than the human chains. The alpha-chain is acetylated at the amino-terminal residue and has no cysteine. Compared with the human chains there are 66 amino-acid differences in the alpha- and 72 in the beta-chains. The implication of these differences for the physiology of the hemoglobin molecule of goldfish is discussed.     

Primary structure of adult hemoglobin of white-throated capuchin, Cebus capucinus

The alpha and beta chains of White-Throated Capuchin (Cebus capucinus) hemoglobin were separated and digested by trypsin. The tryptic peptides were isolated and sequenced by conventional methods. The peptides in each chain were aligned by the homology of their sequences with those of human adult hemoglobin. The primary structures thus deduced are compared with those of other primate hemoglobins, and we discuss the molecular evolution of hemoglobins, in particular the rate of evolution in New World monkey hemoglobins.     

The primary structures of gundi (Ctenodactylus gundi, Rodentia) hemoglobin and myoglobin

The primary structures of the alpha- and beta-chains of hemoglobin and myoglobin from the gundi (Ctenodactylus gundi, Rodentia) are presented. The sequences were determined after enzymatic and chemical cleavages of the polypeptide chains and by sequencing of the peptides mainly by automated sequence analysis. The sequences of gundi hemoglobin chains and of myoglobin are compared with those of other rodents.     

The primary structure of the hemoglobins of the adult jaguar (Panthera onco, Carnivora)

The primary structure of the hemoglobins from Jaguar (Panthera onco) are presented. Electrophoretic separations without and with a dissociating agent revealed the presence of two hemoglobin components, alpha 2 beta I2 and alpha 2 beta II2. The separation of the hemoglobin components was achieved by ion-exchange chromatography. The globin chains were separated by ion-exchange chromatography and also by reversed phase HPLC. The amino-acid sequences of the native chains and peptides were determined by liquid-phase and gas-phase sequencing. N-Acetylserine was detected by FAB-mass spectroscopy as N-terminal group of the beta I chain. The sequences are compared with that of human hemoglobin (Hb A).     

The primary structure of the hemoglobin from the bat Macrotus californicus (Chiroptera)

The complete primary structure of the hemoglobin from the bat Macrotus californicus (Chiroptera) is presented. This hemoglobin consists of only one component. The alpha- and beta-chains were separated by reverse phase high performance liquid chromatography. The sequences of both chains were established by automatic Edman degradation of the chains and the tryptic peptides, as well as of the C-terminal peptide obtained by acidic hydrolysis of the Asp-Pro bond in the beta-chains using the film- and gas-phase method. The sequences are compared with human hemoglobin: 15 amino-acid substitutions are found in the alpha- and 22 in the beta-chains. A comparison with the hemoglobin of Rousettus aegyptiacus and Myotis velifer shows a closer relation to the Mega- than to the Microchiroptera.     

Amino acid sequences of hemoglobin β chains of five species of pinnipeds:Neophoca cinerea,Otaria byronia,Eumetopias jubatus,Pusa hispida,andPagophilus groenlandica

Pinnipeds (Otariidae, Odobenidae, and Phocidae) in the order Carnivora have one or two types (Hb I and Hb II) of hemoglobin components. These hemoglobins consist of identicalβ chains and differentα chains. We determined the complete amino acid sequences of the hemoglobinβ chain of three species of Otariidae (Australian sea lion, South American sea lion, and northern sea lion) and two species of Phocidae (ringed seal and harp seal) from intactβ chain and chemical cleavage fragments. The sequences are similar toβ chains of the already known sequences of pinnipeds. These sequences were compared with those of other carnivores (Mustelidae, Ursidae, Canidae, and Felidae) and adult human hemoglobinβ chain. Using Artiodactyla (pig) as an outgroup, we find that the tree constructed by means of phylogenetic analysis shows that Odobenidae is closest to Otariidae, and that Otariidae and Odobenidae are closer to Mustelidae than to Phocidae.     

Xenopus laevis hemoglobin and its hybrids with hemoglobin A+

Isolated alpha and beta chains from Xenopus laevis hemoglobin have been purified. The isolation procedure yields native alpha chains whose functional behavior has been characterized and compared with that of human alpha chains. Isolated beta chains in the presence of oxygen are characterized by low stability, and hence their functional characterization was limited to the CO binding kinetics. When stoichiometric amounts of the isolated alpha and beta chains are mixed, a tetramer characterized by heme-heme interactions and oxygen affinity comparable to that of the native molecule is readily reconstituted. Moreover, both chains, under appropriate conditions, form stable hybrid tetramers with the partner subunits from human hemoglobin; results on the functional properties of these hybrid hemoglobins are presented and discussed in relation to the stereochemical model of the Root effect.