Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel, simple, rapid, sensitive and reproducible microassay is described for determination of myoglobin and hemoglobin content of myocardial and skeletal muscle biopsy specimens from various mammals, birds and fish. As little as 50 mg of tissue is needed and myoglobin concentrations lower than 1 mg% can be detected. Myoglobin and hemoglobin are separated at alkaline pH by ammonium sulfate extraction followed by ultrafiltration. Heme content is determined by absorption of the Soret band when the hemoprotein extract is visibly colored or more sensitively by its peroxidase activity when the extract has low color. The heme reacts with tertiary-butyl hydroperoxide and orthotolidine to generate a blue color. Hemoglobin content is correlated with myoglobin content and is related to aerobic capacity and blood flow to the tissue. Myoglobin content varied over 5 orders of magnitude up to 7 per cent of the weight of tissue, whereas hemoglobin content varied over 2 orders of magnitude up to 6 per cent of tissue weight. Myoglobin content is increased in species with high basal metabolic rate, high physical activity, prolonged diving capacity, fatigue resistance, and red muscle, whereas it is decreased in white muscle, iron-deficient animals, animals with sedentary lifestyles, and in animals and tissues with small fiber diameters such as avian or fish hearts.
Mol Cell Biochem 1992 May 13
PMID:Rapid, simple and sensitive microassay for skeletal and cardiac muscle myoglobin and hemoglobin: use in various animals indicates functional role of myohemoproteins. 132 34

To differentiate whether the primary volume signal in dog red cells arises from a change in cell configuration or the concentration and dilution of cell contents, we prepared resealed ghosts that had the same surface area and hemoglobin concentration as intact cells but less than 1/3 their volume. Shrinkage of both intact cells and resealed ghosts triggered Na/H exchange. Activation of this transporter in the two preparations correlated closely with cytosolic protein concentration but not at all with volume. The Na/H exchanger was more sensitive to shrinkage in albumin-loaded resealed ghosts than in intact cells or ghosts containing only hemoglobin. Similar results were obtained for the swelling-induced [K-Cl] cotransporter. We believe perception of cell volume originates with changes in cytoplasmic protein concentration. We think the kinases and phosphatases that control the activation of membrane transporters in response to cell swelling or shrinkage are regulated by the mechanism of macromolecular crowding.
Mol Cell Biochem 1992 Sep 08
PMID:Macromolecular crowding and volume perception in dog red cells. 133 30

Differential scanning microcalorimetry was used to study thermal stability of the ferro- and ferriforms of hemoglobin at pH 7.4 in phosphate buffer and in buffer mixtures of methanol, ethanol, 1-propanol. Denaturation of the human hemoglobin molecule composed of four subunits was cooperative transition. The thermostability of the hemoglobin forms decreased in the order of carboxyhemoglobin (TD = 82.0 degrees C) > oxyhemoglobin (71.0 degrees C) > methemoglobin (67.0 degrees C). The aliphatic alcohols as cosolvents decreased the hemoglobin stability because of loosening the structure of the globin moiety by disturbing its hydrophobic contacts and hydrogen bonds. These alcohols reduced the oxygen affinity for hemoglobin probably due to perturbation of the R<-->T equilibrium by the decreased bulk dielectric constant of the solvent. Oxyhemoglobin and methemoglobin was converted to hemichrome by high alcohol concentrations.
Mol Biol (Mosk)
PMID:[Thermal stability and functional properties of human hemoglobin in the presence of aliphatic alcohols]. 133 52

The processes of reversible oxygen binding and nonreversible autoxidation of human hemoglobin were studied. The activation energy of the oxygen binding, as determined by the temperature dependence of the P50 parameter, was 26 +/- 4 kJ/mol, the activation energy of the autoxidation, as determined by the temperature dependence of the apparent rate constant of autoxidation, was 120 +/- 15 kJ/mol. Pyridoxal phosphate decreased the oxygen affinity of hemoglobin, slightly diminished the cooperativity of the oxygenation process and unaffected the activation energy of the oxygen binding. Pyridoxal phosphate slightly reduced the Bohr coefficient value from 0.70 to 0.65. Pyridoxal phosphate, but not pyridoxal, raised the apparent rate constant of autoxidation reaction. The rate of autoxidation significantly increased as the pH value of the medium decreased, reflecting, probably, protonation of the distal histidine of the hemoglobin. The activation energy of autoxidation was independent of pH. Aliphatic alcohols also increased the rate of the autoxidation process, probably, either by stabilization of the hemoglobin T-state, or by direct nucleophilic displacement of the oxygen molecule.
Mol Biol (Mosk)
PMID:[Autooxidation and oxygenation of human hemoglobin]. 133 53

The crystal structures of three mutant hemoglobins reconstituted from recombinant beta chains and authentic human alpha chains have been determined in the deoxy state at 1.8-A resolution. The primary structures of the mutant hemoglobins differ at the beta-chain amino terminus. One mutant, beta Met, is characterized by the addition of a methionine at the amino terminus. The other two hemoglobins are characterized by substitution of Val 1 beta with either a methionine, beta V1M, or an alanine, beta V1A. All the mutation-induced structural perturbations are small intrasubunit changes that are localized to the immediate vicinity of the beta-chain amino terminus. In the beta Met and beta V1A mutants, the mobility of the beta-chain amino terminus increases and the electron density of an associated inorganic anion is decreased. In contrast, the beta-chain amino terminus of the beta V1M mutant becomes less mobile, and the inorganic anion binds with increased affinity. These structural differences can be correlated with functional data for the mutant hemoglobins [Doyle, M. L., Lew, G., DeYoung, A., Kwiatkowski, L., Noble, R. W., & Ackers, G. K. (1992) Biochemistry preceding paper is this issue] as well as with the properties of ruminant hemoglobins and a mechanism [Perutz, M., & Imai, K. (1980) J. Mol. Biol. 136, 183-191] that relates the intrasubunit interactions of the beta-chain amino terminus to changes in oxygen affinity. Since the structures of the mutant deoxyhemoglobins show only subtle differences from the structure of deoxyhemoglobin A, it is concluded that any of the three hemoglobins could probably function as a surrogate for hemoglobin A.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High-resolution X-ray study of deoxy recombinant human hemoglobins synthesized from beta-globins having mutated amino termini. 139 Jun 48

X-ray diffraction difference electron density maps at 3 A resolution obtained from di and tetra-ligated T-state hemoglobin (Hb) crystals are reported. Crystals isomorphous with native deoxyhemoglobin were obtained from ammonium sulfate solutions incubated with the synthetic allosteric effector RSR-56. RSR-56 binds at two symmetry-related Hb central water cavity sites and each molecule has major interactions with three different subunit side-chains; one effector with Arg141 alpha 2 HC3, Lys99 alpha 1 G6 and Asn108 beta 1 and the other with the symmetry related residues, Arg141 alpha 1 Lys99 alpha 2 and Asn108 beta 2. Crystals mounted in a nitrogen filled glove box were di-ligated as previously found with polyethyleneglycol Hb crystals. Crystals mounted in air under a layer of mother liquor were bright red and showed all four heme groups ligated. The difference electron density from the di-ligated crystals showed atomic movements to be restricted to the immediate neighborhood of the heme groups and the allosteric effector. By contrast, the tetra-ligated structure showed extended difference electron density near amino acid residues around both alpha and beta heme groups and along the alpha 1/beta 2 interface. Ligation of the beta heme group appears to magnify the difference density around the alpha heme groups. There is no evidence of breakage of the Bohr salt bridge, His146 beta HC3----Asp94 beta FG1, in the crystal. The observed difference electron density maps may help to clarify the way the allosteric mechanism is triggered.
J Mol Biol 1992 Sep 20
PMID:X-ray diffraction study of di and tetra-ligated T-state hemoglobin from high salt crystals. 140 65

The complete amino acid sequence of a hemoglobin from yeast (Candida norvegensis) has been determined by peptide and cDNA sequence analyses. The protein is composed of 387 amino acid residues and its amino terminus was blocked by an acetyl group. A computer search showed that the sequence of 155 N-terminal residues has 39% homology with that of Vitreoscilla hemoglobin. On the other hand, the sequence of 230 C-terminal residues showed a small, but notable, degree of similarity with that of a methemoglobin reductase found in human erythrocyte, i.e. NADH-cytochrome b5 oxido-reductase. We therefore conclude that yeast hemoglobin consists of two distinct domains; one is a heme-containing oxygen binding domain of the N-terminal region and the other is an FAD-containing reductase domain found in the C-terminal region.
J Mol Biol 1992 Oct 05
PMID:Amino acid sequence of yeast hemoglobin. A two-domain structure. 140 99

Tissue- and developmental stage-specific expression of the human beta-like globin genes is regulated by a combination of ubiquitous and erythroid-restricted trans factors that bind to cis elements near each of the five active genes. Additional interactions of these cis and trans factors with sequences located in the far 5' end of the cluster occur by as yet obscure mechanisms. Because of the complexity of this regulatory puzzle, precise identification of the determinants that control hemoglobin switching has proven difficult. Phylogenetic footprinting is an evolutionary approach to this problem which is based on the supposition that the basic mechanisms of switching are conserved throughout mammalian phylogeny. Alignment of the 5' flanking regions of the gamma genes of several species allows the identification of footprints of 100% conserved sequence. We have now tested oligomers spanning 13 such phylogenetic footprints and find that 12 are bound by nuclear proteins. One conserved element located at -1086 from the gamma genes exhibits repressor activity in transient transfection studies. The protein that binds this element, CSBP-1 (conserved sequence-binding protein 1), also binds at three sites within a silencer element upstream from the epsilon globin gene. Further analysis reveals that the CSBP-1 binding activity is identical to that of a recently cloned zinc finger protein that has been shown to act as a repressor in other systems. The binding of CSPB-1 to silencer sequences in the epsilon and gamma globin genes may be important in the stage-specific silencing of these genes.
Mol Cell Biol 1992 Nov
PMID:Phylogenetic footprinting reveals a nuclear protein which binds to silencer sequences in the human gamma and epsilon globin genes. 140 69

Friend erythroleukemia cells (FELCs) differentiate after hexamethylene-bis-acetamide treatment. This differentiation is characterized by an increase in beta-globin gene expression that is followed by appearance of the hemoglobin. Phorbol-ester tumor promoters, such as 12-O-tetradecanoylphorbol-13-acetate (TPA), inhibit differentiation of TPA-sensitive cells but not TPA-resistant cells. We have shown that the increase in beta-globin expression is inhibited by TPA in a TPA-sensitive clone but not in a TPA-resistant clone. To study the molecular mechanisms of regulation of gene expression by TPA, we examined the possible involvement of gene methylation and the TPA-responsive element (TRE). Both clones showed similar patterns of methylation around the beta-globin gene. Moreover, TPA-induced TRE binding and TRE enhancer activity were similar in both variants. These results suggest that the TPA inhibition of induced differentiation may not be explained by regulation of the methylation state. The activator protein-1 also does not play a crucial role in the sensitivity of FELCs to TPA.
Mol Carcinog 1992
PMID:Role of activator protein-1 and methylation function in 12-O-tetradecanoylphorbol-13-acetate--mediated inhibition of differentiation of Friend erythroleukemia cells. 144 21

Three new routines (LOCK, KEY and LOCKSMITH) for the program HINT (hydrophobic interactions) are described and demonstrated. The KEY routine uses receptor structure to model the hydropathic profile of the ideal substrate for the receptor. The LOCK routine uses substrate or drug structure to model the hydropathic character of the receptor. LOCKSMITH is an algorithm designed to highlight the significant hydropathic features from a collection of agents. Ten allosteric modifiers of hemoglobin that have been characterized biologically and with X-ray diffraction to determine their protein binding sites/conformations illustrate the KEY and LOCKSMITH routines: The LOCKSMITH composite map correctly identifies the structural features and conformation of the more active modifiers. In addition, many hydropathic features of the "ideal" drug predicted by the KEY map overlap with actual structural features of the most active hemoglobin allosteric modifiers.
J Mol Graph 1992 Dec
PMID:KEY, LOCK, and LOCKSMITH: complementary hydropathic map predictions of drug structure from a known receptor-receptor structure from known drugs. 147 93


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