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1.
The Tibetan antelope (Pantholops hodgsonii) is a hypoxia-tolerant species that lives at an altitude of 4000–5000 m above sea level on the Qinghai–Tibetan plateau. Myoglobin is an oxygen-binding cytoplasmic hemoprotein that is abundantly expressed in oxidative skeletal and cardiac myocytes. Numerous studies have implicated that hypoxia regulates myoglobin expression to allow adaptation to conditions of hypoxic stress. Few studies have yet looked at the effect of myoglobin on the adaptation to severe environmental stress on TA. To investigate how the Tibetan antelope (TA) has adapted to a high altitude environment at the molecular level, we cloned and analyzed the myoglobin gene from TA, compared the expression of myoglobin mRNA and protein in cardiac and skeletal muscle between TA and low altitude sheep. The results indicated that the full-length myoglobin cDNA is composed of 1154 bp with a 111 bp 5′ untranslated region (UTR), a 578 bp 3′ UTR and a 465 bp open reading frame (ORF) encoding a polypeptide of 154 amino acid residues with a predicted molecular weight of 17.05 kD. The TA myoglobin cDNA sequence and the deduced amino acid sequence were highly homologous with that of other species. When comparing the myoglobin sequence from TA with the Ovis aries myoglobin sequence, variations were observed at codons 21 (GGT → GAT) and 78 (GAA → AAG), and these variations lead to changes in the corresponding amino acids, i.e., Gly → Asp and Glu → Lys, respectively. But these amino acid substitutions are unlikely to effect the ability of binding oxygen because their location is less important, which is revealed by the secondary structure and 3D structure of TA myoglobin elaborated by homology modeling. However, the results of myoglobin expression in cardiac and skeletal muscles showed that they were both significantly higher than that in plain sheep not only in mRNA but also protein level. We speculated that the higher expression of myoglobin in TA cardiac and skeletal muscles improves their ability to obtain and store oxygen under hypoxic conditions. This study indicated that TA didn't improve the ability of carrying oxygen by changing the molecular structure of myoglobin, but through increasing the expression of myoglobin in cardiac and skeletal muscles.  相似文献   

2.
3.
Chick embryos in ovo incorporated radioactivity from lysine-U-14C into myoglobin, as measured by an immunoprecipitation technique. The most consistent results were obtained by injection of the precursor into the yolk sac fluid.Incorporation, or apparent myoblobin synthesis, occurred in cardiac and skeletal muscle but not in liver, although incorporation of amino acid into total soluble proteins was equivalent in all tissues studied. Synthesis was highest in cardiac muscle and appeared there first in younger embryos. Myoglobin synthesis was detectable in the heart of embryos as early as 6 days of age and rose with age thereafter. Myoglobin synthesis appeared later and at lower levels in skeletal muscle.In vitro at neutral pH, tissue extracts of liver and muscle possessed only slight properties of myoglobin degradation.Using nonradioactive precipitin techniques, sensitive to 5–10 μg/ml, myoglobin was detected in embryonic heart muscle by week 2 of life and rose in content thereafter. Two of 8 embryos had trace amounts in thigh muscle near the time of hatching, and no embryos possessed measurable amounts of myoglobin in liver tissue or in pectoral skeletal muscle. Adult birds possessed equivalent amounts of myoglobin in heart and thigh muscle while pectoral muscle and liver tissue had no detectable myoglobin content.  相似文献   

4.
The family Channidae is represented by 26 species, out of which 23 species are found in Asia. However, the taxonomy and phylogeny of the Channid fishes found in India are poorly understood. In the present study, eight species of Channa (Channa striata, Channa punctatus, Channa marulius, Channa gachua, Channa stewartii, Channa aurantimaculata, Channa barca and Channa bleheri) were investigated using partial sequences of 16S rRNA and Cytochrome c Oxidase subunit I (COI) of mitochondrial genes to differentiate among the eight species and study their relationships. The sequence analysis of the genes revealed two distinct groups, which are genetically distant from each other and exhibit identical phylogenetic resolution. The partial sequences of both the genes provided sufficient phylogenetic information to distinguish all the eight species of Channa.  相似文献   

5.
Residue motions of the distal heme pocket and bound CO ligand of carbonmonoxy Myoglobin are studied using a combination of molecular dynamics simulations and quantum chemical methods. Using mixed quantum mechanics/molecular mechanics calculations together with sampling from molecular dynamics simulations (QM/MM(MD)), the experimentally observed spectroscopic A0 and A1 substates of the bound CO ligand are assigned to the open and closed conformation of His64 and the Hisɛ64 tautomer, respectively. Several previously proposed origins of the A3 substate, including rotamers of the doubly protonated His64H+ side chain, His64H+ inside the distal pocket, and cooperative motions with Arg45, are investigated with QM/MM(MD). However, the signatures of the calculated infrared spectra do not agree with the experimentally observed ones. For additional insight on this, extensive molecular dynamics simulations are used together with improved electrostatics for the bound ligand. A CO fluctuating charge model is developed to describe the ab initio dipole and quadrupole moments of the bound ligand. CO absorption spectra are then obtained directly from the dynamics simulations. Finally, the electrostatics of the heme pocket is examined in detail in an attempt to determine the structural origins of the observed spectroscopic A-states from MD simulations. However, contrary to related simulations for unbound CO in myoglobin, the shifts and splittings for carbonmonoxy Myoglobin are generally small and difficult to relate to structural change. This suggests that coupling of the CO motion to other degrees of freedom, such as the Fe-CO stretching and bending, is important to correctly describe the dynamics of bound CO in myoglobin.  相似文献   

6.
The P50 for oxygenation of myoglobin in intact cells was very high relative to that for isolated myoglobin, and was changed by addition of agents that altered respiratory rate. The P50 for cytochrome a oxidation in cells was very high relative to that for isolated mitochondria, but was unaffected by oxidation of myoglobin to metmyoglobin. These results demonstrate the existence of a substantial intracellular O2 gradient in myocytes and indicate that myoglobin does not have a significant role in facilitation of O2 diffusion to mitochondria.  相似文献   

7.

Background

Myoglobin (Mb) is the simplest monomeric hemoprotein and its physicochemical properties including reversible oxygen (O2)binding in aqueous solution are well known. Unexpectedly, however, its physiological role in intact muscle has not yet been established in spite of the fact that the role of the more complex tetrameric hemoprotein, hemoglobin (Hb), in red cells is well established. Here, I report my new findings on an overlooked property of skeletal Mb.

Methods

I directly observed the oxygenation of Mb in perfused rat skeletal muscle under various states of tissue respiration. A computer-controlled rapid scanning spectrophotometer was used to measure the oxygenation of Mb in the transmission mode. The light beam was focused on the thigh (quadriceps) through a 5-mm-diameter light guide. The transmitted light was conducted to the spectrophotometer through another 5-mm-diameter light guide. Visible difference spectra in the range of 500–650 nm were recorded when O2 uptake in the hindlimb muscle reached a constant value after every stepwise change in the O2 concentration of the buffer.

Results

The O2 dissociation curve (ODC) of Mb, when the effluent buffer O2 pressure was used as the abscissa, was of a sigmoid shape under normal and increased respiratory conditions whereas it was of rectangular hyperbolic shape under a suppressed respiratory condition. The dissociation curve was shifted toward the right and became more sigmoid with an increase in tissue respiration activity. These observations indicate that an increase in O2 demand in tissues makes the O2 saturation of Mb more sensitive to O2 pressure change in the capillaries and enhances the Mb-mediated O2 transfer from Hb to cytochrome oxidase (Cyt. aa3), especially under heavy O2 demands.

Conclusion

The virtual cooperativity and O2 demand-dependent shifts of the ODC may provide a basis for explaining why Mb has been preserved as monomer during molecular evolution.
  相似文献   

8.
For many years, myoglobin has served as a paradigm for structure–function studies in proteins. Ligand binding and migration within myoglobin has been studied in great detail by crystallography and spectroscopy, showing that gaseous ligands such as O2, CO, and NO not only bind to the heme iron but may also reside transiently in three internal ligand docking sites, the primary docking site B and secondary sites C and D. These sites affect ligand association and dissociation in specific ways. Neuroglobin is another vertebrate heme protein that also binds small ligands. Ligand migration pathways in neuroglobin have not yet been elucidated. Here, we have used Fourier transform infrared temperature derivative spectroscopy at cryogenic temperatures to compare the influence of the side chain volume of amino acid residue B10 on ligand migration to and rebinding from docking sites in myoglobin and neuroglobin.  相似文献   

9.
Abstract

Myoglobin (Mb) is a haem protein present in skeletal, cardiac and smooth muscle where it facilitates the transfer of O2 from the extracellular matrix to the cell cytosol in a cycle termed 'facilitated O2-diffusion'. In addition, we showed recently that recombinant human Mb binds endothelium-derived relaxant factor – nitric oxide (?NO) – via formation of both nitrosyl-haem iron and S-nitroso-myoglobin (S-NO-Mb) [Witting PK, Douglas DJ, Mauk AG. Reaction of human myoglobin and nitric oxide. Heme iron or protein sulfhydryl nitrosation dependence on the absence or presence of oxygen. J Biol Chem 2001; 276: 3991–3998]. S-NO-Mb represents a novel form of endothelium-derived relaxant factor (EDRF) that may be important in maintaining optimal ?NO concentrations in the human vasculature. In this study we aim to show that: (i) S-nitrosation of oxygenated ferrous myoglobin (oxyMb) can compete with the rapid oxidation of ?NO by oxyMb; and (ii) S-NO-Mb retains characteristics of physiological EDRF.  相似文献   

10.
This work merges a large set of previously reported thermochemical data for myoglobin (Mb) mutants with a physiological model of O2-transport and -storage. The model allows a quantification of the functional proficiency of myoglobin (Mb) mutants under various physiological conditions, i.e. O2-consumption rate resembling workload, O2 partial pressure resembling hypoxic stress, muscle cell size, and Mb concentration, resembling different organism-specific and compensatory variables. We find that O2-storage and -transport are distinct functions that rank mutants and wild type differently depending on O2 partial pressure. Specifically, the wild type is near-optimal for storage at all conditions, but for transport only at severely hypoxic conditions. At normoxic conditions, low-affinity mutants are in fact better O2-transporters because they still have empty sites for O2, giving rise to a larger [MbO2] gradient (more varying saturation curve). The distributions of functionality reveal that many mutants are near-neutral with respect to function, whereas only a few are strongly affected, and the variation in functionality increases dramatically at lower O2 pressure. These results together show that conserved residues in wild type (WT) Mb were fixated under a selection pressure of low PO2.  相似文献   

11.
Atomistic simulations of nitric oxide (NO) dynamics and migration in the trHbN of Mycobacterium tuberculosis are reported. From extensive molecular dynamics simulations (48 ns in total), the structural and energetic properties of the ligand docking sites in the protein have been characterized and a connectivity network between the ligand docking sites has been built. Several novel migration and exit pathways are found and are analyzed in detail. The interplay between a hydrogen-bonding network involving residues Tyr33 and Gln58 and the bound O2 ligand is discussed and the role of Phe62 residue in ligand migration is examined. It is found that Phe62 is directly involved in controlling ligand migration. This is reminiscent of His64 in myoglobin, which also plays a central role in CO migration pathways. Finally, infrared spectra of the NO molecule in different ligand docking sites of the protein are calculated. The pocket-specific spectra are typically blue-shifted by 5-10 cm−1, which should be detectable in future spectroscopic experiments.  相似文献   

12.
 Synthetic models of the myoglobin active site have provided much insight into factors that affect CO and O2 binding in the proteins. "Capped" and "pocket" metal porphyrin systems have been developed to probe how steric factors affect ligand binding and ultimately to elucidate important aspects of the mechanism of CO discrimination in the proteins. These model porphyrins are among the most thoroughly characterized systems to date. From the twenty-one known crystal structures, analysis of the types of distortion that occur upon ligand binding under the cap, including porphyrin doming and ruffling, lateral and horizontal movement of the cap, and bending and tilting of the Fe–C–O bond, provides an indication of how steric interactions will affect structure in Hb and Mb. The model porphyrin systems discussed range from those that discriminate against O2 binding compared to biological systems to those with similar CO and O2 binding strength to myoglobin, and also to those that bind both O2 and CO very weakly or not at all. The primary type of distortion observed upon CO binding is vertical or lateral movement of the cap and some ruffling of the porphyrin plane. Minimal bending or tilting of the M–C–O bond is observed, suggesting that the Fe–C–O bending that has been found from crystal structures of the hemoproteins is unlikely. Received, accepted: 23 May 1997  相似文献   

13.
Cetaceans, early in their evolutionary history, had developed many physiological adaptations to secondarily return to the sea. Among these adaptations, changes in molecules that transport oxygen and that ultimately support large periods of acute tissue hypoxia probably represent one big step toward the conquest of aquatic environments. Myoglobin contributes to intracellular oxygen storage and transcellular diffusion of oxygen in muscle, and plays an important role in supplying oxygen in hypoxic or ischemic conditions. Here we looked for evidence of adaptive molecular evolution of myoglobin in the cetacean lineage, relative to their terrestrial counterparts. We performed a comparative analysis to examine the variation of the parameter ω (d N/d S) and infer past period of adaptive evolution during the cetacean transition from the terrestrial to the aquatic environment. We also analyzed the changes in amino acid properties. At the nucleotide level, the results showed significant differences in selective pressure between cetacean and non-cetacean myoglobin (ω value three times higher in cetaceans when compared to terrestrial mammals), and also among cetacean lineages according to their diving capacities. Interestingly, both families with long duration diving cetaceans present two parallel substitutions (on sites 4 and 12). Regarding the amino acid properties, our analysis identified four significant physicochemical amino acid changes among residues in myoglobin protein under positive destabilizing selection.  相似文献   

14.
The snakehead fish of the genus Channa are an important food fish in China. However, the molecular identification and phylogeny of this genus is poorly understood. Here, we present the utility of partial sequences of the COI gene for use in DNA barcoding for the identification of Channa individuals, which includes four species: Channa argus, Channa maculata, Channa asiatica, and Channa striata. A total of 19 haplotypes were identified in this study. The interspecific K2P distances were higher than intraspecific distances. The lowest interspecific distance (0.091) was between C. argus and C. maculata while the highest interspecific distance (0.219) was between C. argus and C. striata. No intraspecific–interspecific distance overlaps were observed, and a distinct barcoding gap was found between intraspecific and interspecific distances in each species. Our results showed that the partial COI gene is an effective DNA barcoding marker for identifying Channa species.  相似文献   

15.
Hydrophilicity index is used to locate antigenic determinants on two related groups of proteins-myoglobin and hemoglobin. The data on 41 species (including 34 mammals) of myoglobin show that average hydrophilicity for the complete myoglobin molecules as well as the average hydrophilicity for all hydrophilic regions put together seem to remain constant; the variation in the size and location of the antigenic determinants in these species is very small indicating that the antigenic sites are not shifted during evolution. In the case of both the proteins there is a good agreement between the antigenic sites picked up by using hydrophilicity index and the experimentally determined antigenic sites. The data on 56 species of hemoglobin α-chains and 44 species of hemoglobinβ-chains showed that although there are few sites on hemoglobin which have remained invariant during evolution, there is a significant variation in other sites in terms of either a splitting of a site, or a drastic change in the hydrophilicity values and/or a length of the site. Comparison of the hydrophilicity data on these two groups of proteins suggests that hemoglobins which perform a variety of functions as compared to myoglobins are evolving faster than myoglobins supporting the contention of earlier workers.  相似文献   

16.
The interaction of radiation-generated · OH radicals with ferrimyoglobin in deaerated aqueous solution at neutral pH has been quantitatively studied. Changes in the visible absorption spectrum have been analyzed on the basis of composition changes of the ferri, deoxy, and ferriperoxide forms of the metalloprotein. A postirradiation thermal process must be considered in order to evaluate the radical-induced composition changes. Initially, ·OH induces reduction of ferrimyoglobin to the deoxy form with a G value (molecular yield/100 eV of absorbed energy) in the zero-dose limit of 1.4 (±0.2). Radiation-generated H2O2 reacts with the ferrimyoglobin substrate to produce ferrimyoglobin peroxide with a G value of 0.7 (±0.1) in the zero-dose limit. At doses of >1 krad μm?1 of myoglobin present, the composition of the three myoglobin derivatives reaches a radiolysis steady state. In this moderate-dose plateau region, this composition is 44% ferri, 18% deoxy, and 38% ferri peroxide. The · OH-induced hemoprotein radicals that do not initiate 1-eq redox conversions undergo reactions that generate dimer and other globin-modified material.  相似文献   

17.
Brunori M  Gibson QH 《EMBO reports》2001,2(8):674-679
Small globular proteins contain internal cavities and packing defects that reduce thermodynamic stability but seem to play a role in controlling function by defining pathways for the diffusion of the ligand/substrate to the active site. In the case of myoglobin (Mb), a prototype for structure–function relationship studies, the photosensitivity of the adduct of the reduced protein with CO, O2 and NO allows events related to the migration of the ligand through the matrix to be followed. The crystal structures of intermediate states of wild-type (wt) and mutant Mbs show the photolysed CO to be located either in the distal heme pocket (primary docking site) or in one of two alternative cavities (secondary docking sites) corresponding to packing defects accessible to an atom of xenon. These results convey the general picture that pre-existing internal cavities are involved in controlling the dynamics and reactivity of the reactions of Mb with O2 and other ligands, including NO.  相似文献   

18.
Architecture of hemoprotein is solely responsible for different nature of heme coordination. Here we report that substitution of the acidic surface residue Glu226 to Ala in ascorbate peroxidase from Leishmania major alters the 5 coordinate high spin (5cHS) to a 6 coordinate low spin (6cLS) form at pH 7.5. Using UV-visible spectrophotometry, we show that the sixth ligand of heme in Glu226Ala at pH 7.5 is hydroxo. When the pH is decreased to 5.5, a new species of Glu226Ala appeared that had a spectrum characteristic of a 6cHS derivative. Stopped flow spectrophotometric techniques revealed that characteristics of Compound I was not seen in the Glu226Ala in presence of H2O2. Similarly guaiacol, ascorbate and ferrocytochrome c oxidation rate was 103 orders less for the Glu226Ala mutants compared to the wild type. These data suggested that surface acidic residue Glu226 might play role in proper maintenance of active site conformation.  相似文献   

19.
The optical characteristics of hemoglobin-free perfused rat heart have been examined in detail. Ethyl hydrogen peroxide is found to convert myoglobin into “ferryl compound” in the perfused heart, as is also seen in vitro. After pretreatment with ethyl hydrogen peroxide, a typical mitochondrial absorption spectrum, similar to that of isolated rat heart mitochondria, is obtained in perfused heart. The overall absorption spectrum of the heart obtained by the aerobic to anaerobic transition is a superposition of the mitochondrial spectrum on that of myoglobin. By comparing these spectra, it is found that measurement of cytochrome a + a3 at 605–620 nm is possible in spite of the absorbance change due to the oxygenation-deoxygenation of myoglobin, whereas the wavelength pairs for cytochrome c at 550-540 nm, cytochrome b at 562–575 nm and cytochrome a + a3 at 445–450 nm can not be used in the heart because of interference from the absorption change of myoglobin. The partial pressure of O2 (P50) which is required for half maximal deoxygenation (or oxygenation) of myoglobin in perfused heart is found to be 2.4 mm Hg at room temperature and the Hill constant, n, is 1.1; these values are similar to those of myoglobin purified from rat heart. The steady-state O2 titration has been performed by using absorbancy changes of myoglobin and cytochrome a + a3 as intracellular O2 indicators. In the perfused heart, the percentage change of oxygenation-deoxygenation of myoglobin parallels the oxidation-reduction of cytochrome a + a3, while the mixture of purified myoglobin and isolated mitochondria shows a deviation, reflecting the difference of O2 affinities between myoglobin and cytochrome a + a3. The results indicate that there may be an O2 gradient between cytosolic and mitochondrial compartments in the hemoglobin-free perfused heart. The absorption changes of myoglobin and of cytochrome a + a3 can be measured in a single contraction-relaxation cycle. A triple beam method was introduced to eliminate the effect of light scattering changes in these measurements. The results demonstrated that myoglobin is more oxygenated during the systolic and diastolic periods and deoxygenated in the resting period, whereas cytochrome a + a3 is more reduced in systole and diastole and oxidized in the resting state. Changing the perfusion conditions greatly alters the time course of the events which occur during the contraction-relaxation cycle of the perfused heart.  相似文献   

20.
  • 1.1. Metmyoglobin reacted with H2O2 to form ferryl-myoglobin, which reverted back spontaneously to the met-form.
  • 2.2. Through this cyclic reaction of myoglobin between metMb(III) and ferryl-Mb(IV), we propose that H2O2, one of the potent oxidants in vivo, can be decomposed continuously in cardiac and skeletal muscle tissues in the absence of catalase and peroxidase.
  相似文献   

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