DrugBank:EXPT00572 - FACTA Search

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Query: DrugBank:EXPT00572 (Asn)
11,732 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hemoglobin from an adult camel (Camelus dromedarius) was prepared from the red cell lysate by CM- and DEAE-cellulose chromatography. The purified hemoglobin showed a lesser mobility on starch gel electrophoresis at pH 8.5 than that of human hemoglobin C. Native camel hemoglobin contains 95-99% alkali-resistant hemoglobin and in soluble in 2.94 M K2HPO4/KH2PO4 buffer. Different forms of camel hemoglobin show similar ammonium sulfate precipitation curves. Indirect evidence for the stability of camel hemoglobin solutions was obtained from several sources. Spontaneous met-hemoglobin formation is extremely slow and minimal quantities of degradation products appear on starch gel electrophoresis and on chromatographic separation. The alpha and beta chains of camel hemoglobin A were separated on a CM-23 column by the use of a pyridine formate gradient. Large peptide fragments were obtained by tryptic digestion of maleylated alpha and beta chains. The N-terminal structure of the alpha and beta chains and of tryptic maleylated peptides derived from alpha and beta chains are presented. Between adult camel hemoglobin and adult human hemoglobin six amino acid differences in the N-terminal 20 amino acid residues of the alpha chain, at residues: 4, 5, 12, 14, 17, and 19; eight amino acid substitutions were found in the beta chain at positions: 4, 5, 6, 9, 12, 13, 16, and 19. Substitutions at alpha5 Ala leads to Lys, and beta19 Asn leads to Lys, increase the net positive charge of camel hemoglobin by two, while other substitutions result in no charge differences. The molecular basis of the stability of camel adult hemoglobin is discussed.
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PMID:Studies on camel hemoglobin. 1. Physico-chemical properties and some structural aspects of camel hemoglobin (Camelus dromedarius). 0 5

Position beta 82 in human hemoglobin (Hb) is normally occupied by lysine, a positively charged residue that is involved in the binding of anionic cofactors. This residue is substituted by a neutral residue in Hb Providence Asn and by a negatively charged residue in Hb Providence Asp. Hb Providence Asp shows more differences from Hb A than does Hb Providence Asn in studies of the kinetics and equilibria of ligand binding. For both forms, homotropic (cooperative) interactions are normal with n values of 2.5 to 2.7, while heterotropic (pH and anion) interactions are reduced greatly. The reduction in anion sensitivity is attributed to the absence of a positive residue at position beta 82. Reduction in pH sensitivity may be due to a ligand-linked change in the pK of a neighboring residue, beta 143 histidine, which normally is not a Bohr group. This change in pK would act in opposition to the normal Bohr effect. Reduction in the net positive charge of the central cavity has a further consequence. Relative to Hb A, both Hb Providence Asn and Hb Providence Asp show decreased oxygen affinities at neutral pH in the absence of cofactors. This suggests that in Hb A the binding of anionic cofactors directly influences the oxygen affinity by neutralizing the charged groups of the diphosphoglycerate binding site and thus stabilizing the low affinity (T) conformation. From pH 6 to 9 in the presence of 1 M NaCl, where all the charged groups may be masked, the oxygen-binding properties of Hb A and the Hb Providence mutants are identical. Moreover, subunit dissociation of the liganded Hb Providence mutants appears to be increased, as is known to occur for Hb A in the presence of high salt. The results obtained with Hb Providence Asn and Hb Providence Asp illustrate how single amino acid substitutions can modify hemoglobins' pH and anion interactions without altering cooperative interactions between subunits. The alteration in cofactor effects observed with these mutants also illustrates differences between the allosteric effects induced by organic and inorganic anions.
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PMID:Hemoglobin providence. Functional consequences of two alterations of the 2,3-diphosphoglycerate binding site at position beta 82. 1 72

Hemoglobin G. Ferrara is an abnormal human hemoglobin in which an asparagine residue is replaced by a lysyl residue at position beta57 (beta57 Asn replaced by Lys). Oxygen equilibria show that cooperativity and alkaline Bohr effect are maintained to normal levels while the acid Bohr effect appears increased; in addition, a smaller effect of diphosphoglycerate is also observed. Flash photolysis experiments performed as a function of protein concentration show that the fraction of quickly reacting form is always higher than that of human hemoglobin A. This fact, together with the increase of the oxygen affinity observed at acid pH values, may be related to an enhanced dissociation of the molecule into dimers. Several attempts to isolate the native chains by treatment of the protein with p-chloromercuribenzoate were unsuccessful due to the great instability of the isolated variant beta-chains, which precipitated completely during incubation with p-chloromercuribenzoate. Therefore, although the substitution is on the surface of the molecule, there are several properties of hemoglobin G. beta Ferrara which are clearly different from hemoglobin A.
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PMID:Properties of hemoglobin G. Ferrara (beta57(E1) Asn replaced by Lys). 2 14

Hemoglobin Hb) Creteil alpha2beta(2)89 (F5) Ser leads to Asn is a high oxygen-affinity variant that has a low cooperativity, a decreased Bohr effect, and does not interact with diphosphoglycerate (DPG) (1). This hemoglobin variant was silent by routine electrophoresis. Careful analyses of the oxygen dissociation curves of erythrocytes, determined at varying pH and Pco2 in fresh and DPG-depleted cells, gave extensive information on the abnormal function of the mutant hemoglobin. From the O2 dissociation curves of the erythrocytes of the heterozygous subject it appeared that Hb Creteil is inappropriate for O2 transport to the tissues because it remained completely saturated with O2 at normal physiologic levels of Po2. In-vivo measurements showed that only one half of the total hemoglobin present actually participated in oxygen transport. Polycythemia should therefore be maintained within clinically tolerable limits because it helps to keep arterial Po2 and Pvo2 close to their normal values and thus protects the individual from a permanent increase in blood flow.
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PMID:Hemoglobin Creteil: oxygen transport by erythrocytes. In-vitro and in-vivo studies in a high oxygen-affinity mutant hemoglobin. 2 32

A new turbidimetric method for the direct measurement of the solubility of oxy- and deoxyhemoglobins (Hb) in concentrated phosphate buffer has been established. The principle of the method is the formation of a homogeneous emulsion when hemoglobin is introduced in concentrated phosphate buffer. The solubility of the oxy and deoxy forms of Hb A, Hb S, Hb C, Hb F, and Hb CHarlem (beta 6Glu leads to Val, beta 73Asp leads to Asn) has been studied. The solubility of deoxy-Hb S was the lowest and the solubility curve was broader than those of the other hemoglobins indicating that the aggregates of deoxy Hb S require more water to be dissolved. The solubility of oxy- and deoxyhemoglobins depends on temperature and pH. The solubility of hemoglobins is increased as the temperature is lowered and the pH is raised. The pH dependency of the solubility of deoxy-Hb S in high phosphate buffer was opposite to that of the minimum gelling concentration of deoxy-Hb S. The order of the solubility of Hb CHarlem, Hb FS, Hb AS, Hb CS, and Hb S in concentrated phosphate buffer corresponds to the order of minimum gelling concentration of these hemoglobins or hemoglobin mixtures. Solubility studies of a 1:1 mixture of deoxy-Hb A and deoxy-Hb S show that deoxy-Hb A aggregates in 2.42 M phosphate buffer in which pure deoxy-Hb A is totally soluble. This result indicates that deoxy-Hb S interacts with deoxy-Hb A and decreases its solubility.
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PMID:The solubility of sickle and non-sickle hemoglobins in concentrated phosphate buffer. 3 34

A new abnormal hemoglobin, Hb J Amiens beta 17 (A 14) Lys replaced by Asn, has been discovered during the exploration of a recent polycythemia in a 65-year-old patient of Spanish extraction. Oxygen affinity of washed red blood cells was found to be normal at pH 7.13 (P 50 = 30.0 mmHg, N = 29.5 +/- 1). Cooperativity is unchanged, and no instability was detected. From this study, it is concluded that there is no relation between this functionally silent hemoglobin and the polycythemia. In fact, the recent appearance of the polycythemia, the involvement of the other blood cell lines, particularly the thrombocytosis, the high score of leukocyte alkaline phosphatases, and the results of the bone marrow biopsy led to the diagnosis of polycythemia vera.
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PMID:[Hemoglobin J Amiens beta 17 (A 14) Lys replaced by Asn. Coincidence of a functionally silent new abnormal hemoglobin and a polycythemia vera (author's transl)]. 12 38

We report a new case of hemoglobin J. Broussais, present in its heterozygote form in a seven year old child from Martinque. The structural characteristics of this abnormal hemoglobin have been compared by three methods: 1. By analytical and preparative finger-printing on silica gel thin layer plates after tryptic digestion. 2. By a programmed separation of tryptic peptides on various ion exchange resins. 3. And by automatic sequencing of the peptides obtained following CNBr cleavage and separation by gel filtration chromatography. The functional behaviour of this hemoglobin was not modified by the substitution of an Asn for a Lys residue at position 90, although its presence induced slight hematological disorders in the patient. Abnormal hemoglobins which have been identified in Martinique and Guadeloupe are reviewed.
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PMID:[Hemoglobin J. Broussais alpha-2 90 Lys leads to Asn beta-2A (FG2) discovered in a Martinique family. Comparison of several analytical technics]. 12 34

The quaternary structures of fully liganded adult hemoglobin and hemoglobin Kansas (alpha2beta2 102 Asn-thr) bound by carbon monoxide or nitric oxide were spectroscopically characterized using high-resolution nuclear magnetic resonance (NMR) and ultraviolet circular dichroism (CD). The spectral markers used for the quarternary transition were the line in the NMR spectrum in H2O-14 ppm downfield from 2,2-dimethyl-2-silapentane-5-sulfonate and the negative peak at 285 nm in the ultraviolet CD spectrum. In the nitrosyl derivatives, these two structural markers were compared with the electron paramagnetic resonance (EPR) spectrum at room temperature for the purpose of correlating structural changes in the protein with changes at the heme...
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PMID:Correlation between quaternary structure and ligand dissociation kinetics for fully liganded hemoglobin. 16 3

In hemoglobin Richmond (beta102 leads to Lys), amino acid substitution has occurred at the same site as the mutation in hemoglobin Kansas (beta102 Asn leads to Thr), a variant with very low oxygen affinity. Although hemoglobin Richmond has been shown to have increased tetramer-dimer dissociation, its oxygen affinity has been inferred to be normal from studies on hemolysates of carriers. We have isolated hemoglobin Richmond and have further studied its properties. We confirm that the oxygen affinity of pure hemoglobin Richmond under conditions similar to those found in vivo is normal. However, the Bohr effect of the variant hemoglobin is markedly abnormal. Its oxygen affinity is low at high pH and high at low pH, relative to hemoglobin A. The tetramer-dimer equilibrium displays a strong pH dependence such that protons promote dissociation. A model is presented in which the structural change in hemoglobin Richmond results in low oxygen affinity, like hemoglobin Kansas. However, the close linkage between tetramer-dimer dissociation and proton concentration seen with hemoglobin Richmond results in normal oxygen affinity at intracellular pH and hemoglobin concentration, and carriers display no hematological abnormalities.
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PMID:Hemoglobin Richmond. Subunit dissociation and oxygen equilibrium properties. 23 52

An Indian (Asian) patient with compound heterozygosity for Hb Riyadh and beta 0-thalassemia is described. Hb Riyadh forms about 95% of the hemoglobin present. The clinico-pathological picture is identical to that of simple beta-thalassemia trait confirming the harmless nature of the substitution beta 120(GH3) Lys leads to Asn.
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PMID:Hemoglobin Riyadh-beta 0-thalassemia in an Indian family. 51 84

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