Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The properties of purified mini-myoglobin, the fragment 32-139 of horse heart myoglobin reconstituted with protohaem, have been investigated from a structural and functional view point. The recovery of secondary structure observed in the carbon monoxide derivative of mini-myoglobin, as shown by circular dichroism, and the overall similarity of the haem pocket to that of myoglobin, as deduced from the fluorescence properties of the complex with 1-anilino-8-naphthalene sulphonate, indicate that, in the presence of the constraints imposed by the haem and its ligands, the miniprotein reacquires a conformation close to that of native myoglobin. These spectroscopic data parallel the conclusions drawn from the results of ligand combination and dissociation kinetics; stopped-flow experiments indicate that carbon monoxide and oxygen bind to mini-myoglobin with rates almost identical with those of myoglobin itself. The significance of mini-myoglobin as a model of an oxygen-carrying protein, with some of the expected functional characteristics of an ancestor haemoprotein, is discussed, with reference to the mosaic structure of the myoglobin gene and the role of different exons in the evolution of proteins.
J Mol Biol 1988 Apr 20
PMID:Mini-myoglobin. The structural significance of haem-ligand interactions. 341 8

We evaluated the extent to which muscle-specific genes display identical patterns of mRNA accumulation during human myogenesis. Cloned satellite cells isolated from adult human skeletal muscle were expanded in culture, and RNA was isolated from low- and high-confluence cells and from fusing cultures over a 15-day time course. The accumulation of over 20 different transcripts was compared in these samples with that in fetal and adult human skeletal muscle. The expression of carbonic anhydrase 3, myoglobin, HSP83, and mRNAs encoding eight unknown proteins were examined in human myogenic cultures. In general, the expression of most of the mRNAs was induced after fusion to form myotubes. However, several exceptions, including carbonic anhydrase and myoglobin, showed no detectable expression in early myotubes. Comparison of all transcripts demonstrated little, if any, identity of mRNA accumulation patterns. Similar variability was also seen for mRNAs which were also expressed in nonmuscle cells. Accumulation of mRNAs encoding alpha-skeletal, alpha-cardiac, beta- and gamma-actin, total myosin heavy chain, and alpha- and beta-tubulin also displayed discordant regulation, which has important implications for sarcomere assembly. Cardiac actin was the only muscle-specific transcript that was detected in low-confluency cells and was the major alpha-actin mRNA at all times in fusing cultures. Skeletal actin was transiently induced in fusing cultures and then reduced by an order of magnitude. Total myosin heavy-chain mRNA accumulation lagged behind that of alpha-actin. Whereas beta- and gamma-actin displayed a sharp decrease after initiation of fusion and thereafter did not change, alpha- and beta-tubulin were transiently induced to a high level during the time course in culture. We conclude that each gene may have its own unique determinants of transcript accumulation and that the phenotype of a muscle may not be determined so much by which genes are active or silent but rather by the extent to which their transcript levels are modulated. Finally, we observed that patterns of transcript accumulation established within the myotube cultures were consistent with the hypothesis that myoblasts isolated from adult tissue recapitulate a myogenic developmental program. However, we also detected a transient appearance of adult skeletal muscle-specific transcripts in high-confluence myoblast cultures. This indicates that the initial differentiation of these myoblasts may reflect a more complex process than simple recapitulation of development.
Mol Cell Biol 1987 Nov
PMID:Differential patterns of transcript accumulation during human myogenesis. 343 50

To a large extent, the mutual affinities of the mammalian orders continue to puzzle systematists, even though comparative anatomy and amino acid sequencing offer a massive data base from which these relationships could potentially be adduced. In the present paper the consistency index--the number of character states less the number of characters in a data set, divided by the total number of changes in the character states on a cladogram--was used to examine the relative resolving powers of recently published morphological and molecular-sequence data. Consistency indices were calculated for previously published alpha crystallin A chain and myoglobin amino acid-sequence cladograms and for four original amino acid-sequence cladograms (alpha crystallin A, myoglobin, and alpha and beta hemoglobin); these were found to be comparable to the consistency indices of morphologically based cladograms. Qualitative comparisons between the morphologically based and molecularly based trees were also made; only moderate congruence between the two was observed. Moreover, there was a general lack of congruence between the cladograms specified by each of the four proteins. Amino acid-sequence and morphological data agreed on the placement of edentates as an early eutherian offshoot and on the grouping of hyracoids, proboscideans, and sirenians. Otherwise there was only limited congruence: morphology strongly supported the grouping of lagomorphs and rodents and the alliance of pholidotes and edentates, but sequence analyses did not. The placement of tubulidentates differed widely among proteins. Morphology indicated the close association of sirenians with proboscideans; proteins suggested a pairing of sirenians with hyracoids. Sequence data did not identify many (morphologically well-diagnosed) orders as monophyletic (e.g., Lagomorpha).(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Biol Evol 1987 Mar
PMID:Amino acid sequence versus morphological data and the interordinal relationships of mammals. 344 9

Computational studies are used to investigate the energies of xenon binding to myoglobin and to describe pathways through the protein interior for a metmyoglobin-xenon complex. Empirical energy calculations indicate a favorable enthalpic contribution of 0.6 to 4.2 kcal/mol to xenon binding for four experimentally determined xenon sites. These calculated enthalpies help to explain the different xenon occupancies observed experimentally. A fifth site, modeled in place of the iron co-ordinated water molecule in the distal cavity, is also predicted to bind xenon. The largest contribution to the binding energy is from van der Waals' interactions with smaller contributions from polarization and protein strain terms. Ligand trajectory calculations as well as a new geometric algorithm define a connecting network of channel-like pathways through the static protein structure. One or two pathways appear to lead most easily from each major internal cavity to the protein surface. The importance of these channels in protein dynamics and their implications as routes for ligand motion are discussed.
J Mol Biol 1986 Nov 20
PMID:Computational studies of the interaction of myoglobin and xenon. 356 Feb 22

Reddish-brown crystals of metmyoglobin from horse heart have been obtained by both the hanging drop and batch crystallization methods in the space group P2(1), having a = 64.3 A, b = 28.9 A and c = 35.9 A, with beta = 107.1 degree. Morphologically similar crystal forms have been obtained for three derivatives of horse heart myoglobin having modified heme prosthetic groups.
J Mol Biol 1987 Jan 05
PMID:Crystallization and preliminary diffraction data for horse heart metmyoglobin. 358 21

The recombination of carbon monoxide to isoenzymes A2 and C of horseradish peroxidase (HRP) was studied as a function of temperature (2 to 320 K) and pH (5 to 8.3) with flash photolysis and infrared difference absorption. At low temperatures three geminate recombination processes are observed. One of these internal processes, denoted by I*, is exponential in time with a rate coefficient that deviates strongly from an Arrhenius behavior below 100 K, implying phonon-assisted tunneling. The two other processes, denoted by I, are non-exponential in time and related to different carbonyl isomers, as shown by the infrared difference spectra. The existence of three internal processes indicates that HRP differs considerably from myoglobin where only one internal process, I, is seen. Moreover, the internal processes in HRP are faster than process I in myoglobin. At 300 K, only one recombination process from the solvent is observed and it is very slow (lambda s approximately 1 s-1 at 1 atm CO (1 atm = 101,325 Pa)), much slower than the corresponding association process in myoglobin. Since process I is fast, but binding from the solvent is slow, the barrier at the heme cannot be responsible for the small association rate. The infrared absorption difference spectra of the amide I/II bands indicate that photolysis and recombination trigger a two-step structural change. The slow recombination rate at 300 K can thus be explained by the large Gibbs energy of the conformational transition that is necessary to let CO move into the heme pocket. The partition coefficient for the CO in the heme pocket and the solvent is extremely small, while bond formation with the heme iron occurs in less than 100 nanoseconds.
J Mol Biol 1987 Mar 20
PMID:Recombination of carbon monoxide to ferrous horseradish peroxidase types A and C. 361 8

Phase-sensitive two-dimensional nuclear magnetic resonance (n.m.r.) experiments have been used to obtain extensive proton resonance assignments for the carbon monoxide complex of sperm whale myoglobin. Multiple quantum experiments were particularly important in the assignment procedure. The assignments are the most complete yet reported for a protein of such high molecular weight (approximately 18,000) and make possible new and comprehensive studies of the structure and dynamics of carbonmonoxymyoglobin in solution. Assignments for seven of the histidine residues are reported, including the critical proximal and distal histidines. Most of these are at variance with the assignments already in the literature. The present n.m.r. data indicate that histidines 24 (B5) and 119 (GH1) are hydrogen bonded to each other and, in contrast to neutron diffraction data, show that His24 does not protonate at pH greater than 5. The aromatic rings of all the phenylalanine and tyrosine residues undergo rapid flips about the ring axis. The side-chains of Leu89 (F4) and Phe138 (H15), which border a large hydrophobic cavity, are particularly mobile.
J Mol Biol 1987 Mar 20
PMID:Assignment of resonances in the 1H nuclear magnetic resonance spectrum of the carbon monoxide complex of sperm whale myoglobin by phase-sensitive two-dimensional techniques. 361 9

A class of soluble, low molecular weight proteins collectively called fatty acid binding proteins (FABP) are thought to function in the intracellular movement of fatty acids. To understand more clearly the role of FABP in cardiac metabolism, we used ELISA and immunoblotting techniques to study the distribution of heart FABP in several rat tissues, compare male and female rat heart content, quantitate developmental changes, and determine its subcellular distribution. Immunoreactive protein was found in appreciable amounts in rat heart, red skeletal muscle and kidney. Adult rat heart contained about 1.5 mg FABP/g tissue wet weight with the atrial content being approximately 50% of the ventricular concentration. No significant difference was detected between the sexes. The amount of FABP increased progressively during development from fetal to adult animals, and measureable amounts were found in 17-day-old fetal tissue. Comparisons between myoglobin and FABP showed that FABP appeared earlier than myoglobin in development, but myoglobin was more abundant than FABP at birth. Using immunoblots it was determined that rat heart FABP was localized in the cytosol with no detectable intramitochondrial material.
J Mol Cell Cardiol 1987 May
PMID:Measurement of rat heart fatty acid binding protein by ELISA. Tissue distribution, developmental changes and subcellular distribution. 362 79

The rebinding of CO, O2, NO, methyl, ethyl, n-propyl, and n-butyl isocyanide to isolated alpha and beta chains and intact hemoglobin at pH 7, 20 degrees C was examined both during and after a 30-ns dye laser pulse. The resultant absorbance changes were analyzed in terms of a linear three-step reaction scheme: Hb + X in equilibrium with C in equilibrium with B in equilibrium with A or HbX, where A is the final bound state, and C and B are geminate states. Rate constants were assigned for each of the transitions in this mechanism using fitting procedures described previously for analyzing ligand rebinding to sperm whale myoglobin at room temperature (Gibson, Q. H., Olson, J. S., McKinnie, R. E., and Rohlfs, R. J. (1986) J. Biol. Chem. 261, 10228-10239). Five major conclusions were obtained. First, initial geminate recombination phases for the NO and O2 complexes of hemoglobin and its isolated subunits exhibit half-times equal to approximately 12 and approximately 440 ps, respectively. These values are in excellent agreement with more direct, picosecond measurements of the geminate recombination of HbNO (Cornelius, P. A., Hochstrasser, R. M., and Steele, A. W. (1983) J. Mol. Biol. 163, 119-128) and HbO2 (Friedman, J. M., Scott, T. W., Fisanick, G. J., Simon, S. R., Findsen, E. W., Ondrias, M. R., and MacDonald, V. W. (1985) Science 229, 187-229) following extremely short laser pulses. Second, the correspondence between our nanosecond measurements and the published picosecond data suggests strongly that the intrinsic photochemical yield of all ferrous, hexacoordinate heme complexes approaches one. Third, the major differences between the isolated alpha and beta chains involve the rate of ligand migration to the solvent, kC----X and the extent of recombination from the second geminate state, C, as measured by the ratio kC----B/kC----X. Fourth, for both isolated chains and intact hemoglobin, the rate and equilibrium constants for the formation of the initial O2 geminate state starting from ligand in the solvent (i.e. kX----B and KX----B) are 5-10 times greater than the corresponding parameters for the formation of the first CO geminate state. Fifth, the rate-limiting step for NO, O2, and isonitrile binding to hemoglobin and its isolated subunits is ligand migration up to the initial geminate state (i.e. kX----B). In the case of CO binding, both migration to state B and iron-ligand bond formation (kB----A) affect the overall, bimolecular association rate constant.
 ...
PMID:Ligand recombination to the alpha and beta subunits of human hemoglobin. 365 96

Reconstitution of liver fluke (Dicrocoelium dendriticum) apo-hemoglobin with hemins selectively deuterated at specific positions has permitted the assignment of several heme resonances in the proton nuclear magnetic resonance spectrum of the Met-aquo and Met-cyano forms of the holoprotein. It was established that in the Met-aquo form the meso protons resonate at positions characteristic of a six-co-ordinated in-plane iron. From this, we deduced that the Met-aquo species retains a bound water molecule at pH values as low as 4.5. The orientation of the proximal histidine imidazole ring with respect to the heme group in the cavity was determined through the identification of the heme methyl signals and the analysis of the hyperfine shift pattern in the Met-cyano hemoglobin proton nuclear magnetic resonance spectrum. Compared to sperm whale myoglobin, the heme appears to be rotated by 180 degrees about the alpha, gamma meso-axis. Protein isomers with the heme group in a reversed orientation were not detected, even shortly after reconstitution. In the Met-cyano form, the resonances most affected by the Bohr transition were shown to arise from the heme propionates.
J Mol Biol 1987 Sep 05
PMID:Structural and electronic properties of the liver fluke hemoglobin heme cavity by nuclear magnetic resonance: hemin isotope labeling. 368 90


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>