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Cell cultures of cardiac, pectoral, and thigh muscle of chick embryos synthesized myoglobin, as measured by incorporation of radioactive lysine detected by radioimmunoprecipitation. Liver and skin cultures, although active in protein synthesis, failed to demonstrate myoglobin synthesis. Puromycin inhibited myoglobin synthesis by the cell cultures. The electrophoretic characteristics of the myoglobin antigen synthesized by thigh and pectoral muscle were identical. Myglobin synthesizing progenitor cells attached to plastic dishes in 1 hr, but not completely in 0.5 hr. Cells, unattached at 0.5 hr, were enriched in myoglobin synthesizing cells. Incorporation of lysine-U-14C into myoglobin was maximal in confluent cultures and its increase paralleled the increase of cell fusion in the cultures. The ability of pectoral, white muscle to synthesize myoglobin in a manner equivalent to that of cardiac tissue was unexpected because of its failure to synthesize myoglobin in vivo and may indicate that factors in the whole organism may regulate the expression of this muscle cell's capabilities.  相似文献   

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   

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Cetaceans (dolphins and whales) are born into the aquatic environment and are immediately challenged by the demands of hypoxia and exercise. This should promote rapid development of the muscle biochemistry that supports diving, but previous research on two odontocete (toothed whales and dolphins) species showed protracted postnatal development for myoglobin content and buffering capacity. A minimum of 1 and 1.5 years were required for Fraser’s (Lagenodelphis hosei) and bottlenose (Tursiops truncatus) dolphins to obtain mature myoglobin contents, respectively; this corresponded to their lengthy 2 and 2.5-year calving intervals (a proxy for the dependency period of cetacean calves). To further examine the correlation between the durations for muscle maturation and maternal dependency, we measured myoglobin content and buffering capacity in the main locomotor muscle (longissimus dorsi) of harbor porpoises (Phocoena phocoena), a species with a comparatively short calving interval (1.5 years). We found that at birth, porpoises had 51 and 69 % of adult levels for myoglobin and buffering capacity, respectively, demonstrating greater muscle maturity at birth than that found previously for neonatal bottlenose dolphins (10 and 65 %, respectively). Porpoises achieved adult levels for myoglobin and buffering capacity by 9–10 months and 2–3 years postpartum, respectively. This muscle maturation occurred at an earlier age than that found previously for the dolphin species. These results support the observation that variability in the duration for muscular development is associated with disparate life history patterns across odontocetes, suggesting that the pace of muscle maturation is not solely influenced by exposure to hypoxia and exercise. Though the mechanism that drives this variability remains unknown, nonetheless, these results highlight the importance of documenting the species-specific physiological development that limits diving capabilities and ultimately defines habitat utilization patterns across age classes.  相似文献   

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Myoglobin synthesis was compared in cell cultures of leg (red) and breast (white) muscle of chick embryos. In leg muscle cultures a rapidly increasing amino acid incorporation into myoglobin begins two days after muscle cell fusion; in breast muscle cultures no comparable increase was observed. This qualitative difference in cultures of the two muscle cell types provides possibilities for the further study of the mechanism of myoglobin synthesis.  相似文献   

8.
Recent progress in defining molecular components of pathways controlling early stages of myogenesis has been substantial, but regulatory factors that govern the striking functional specialization of adult skeletal muscle fibers in vertebrate organisms have not yet been identified. A more detailed understanding of the temporal and spatial patterns by which specialized fiber characteristics arise may provide dues to the identity of the relevant regulatory factors. In this study, we used immunohistochemical, in situ hybridization, and Northern blot analyses to examine the time course and spatial characteristics of expression of myoglobin protein and mRNA during development of the distal hindlimb in the mouse. In adult animals, myoglobin is expressed selectively in oxidative, mitochondria-rich, fatigue-resistant myofibers, and it provides a convenient marker for this particular subset of specialized fibers. We observed only minimal expression of myoglobin in the hindlimb prior to the second day after birth, but a rapid and large (50-fold) induction of this gene in the ensuing neonatal period. Myoglobin expression was limited, however, to fibers located centrally within the limb which coexpress myosin isoforms characteristic of type I, IIA, and IIX fibers. This induction of myoglobin expression within the early postnatal period was accompanied by increased expression of nuclear genes encoding mitochondrial proteins, and exhibited a time course similar to the upregulation of myoglobin and mitochondrial protein expression that can be induced in adult muscle fibers by continuous motor nerve stimulation. This comparison suggests that progressive locomotor activity of neonatal animals may provide signals which trigger the development of the specialized features of oxidative, fatigue-resistant skeletal muscle fibers. © 1996 Wiley-Liss, Inc.  相似文献   

9.
PERMEABILITY OF MUSCLE CAPILLARIES TO EXOGENOUS MYOGLOBIN   总被引:17,自引:11,他引:6       下载免费PDF全文
Whale skeletal muscle myoglobin (mol wt 17,800; molecular dimensions 25 x 34 x 42 Å) was used as a probe molecule for the pore systems of muscle capillaries. Diaphragms of Wistar-Furth rats were fixed in situ at intervals up to 4 h after the intravenous injection of the tracer, and myoglobin was localized in the tissue by a peroxidase reaction. Gel filtration of plasma samples proved that myoglobin molecules remained in circulation in native monomeric form. At 30–35 s postinjection, the tracer marked ~75% of the plasmalemmal vesicles on the blood front of the endothelium, 15% of those located inside and none of those on the tissue front. At 45 s, the labeling of vesicles in the inner group reached 60% but remained nil for those on the tissue front. Marked vesicles appeared on the latter past 45 s and their frequency increased to ~80% by 60–75 s, concomitantly with the appearance of myoglobin in the pericapillary spaces. Significant regional heterogeneity in initial labeling was found in the different segments of the endothelium (i.e., perinuclear cytoplasm, organelle region, cell periphery, and parajunctional zone). Up to 60 s, the intercellular junctions and spaces of the endothelium were free of myoglobin reaction product; thereafter, the latter was detected in the distal part of the intercellular spaces in concentration generally equal to or lower than that prevailing in the adjacent pericapillary space. The findings indicate that myoglobin molecules cross the endothelium of muscle capillaries primarily via plasmalemmal vesicles. Since a molecule of this size is supposed to exit through both pore systems, our results confirm the earlier conclusion that the plasmalemmal vesicles represent the large pore system; in addition, they suggest that the same structures are, at least in part, the structural equivalent of the small pore system of this type of capillaries.  相似文献   

10.
We have investigated the synthesis and coding capacity of RNA isolated from cultures of differentiating Drosophila embryonic muscle cells. We find that following muscle cell fusion, the sedimentation profile of newly synthesized polyadenylated RNA becomes somewhat lighter. In vitro translation products analyzed by two-dimensional gel electrophoresis indicate that the coding capacity of translatable myogenic mRNA changes during differentiation. A group of several muscle-specific proteins (including the contractile proteins) is translated only from mRNA isolated after the initiation of fusion. This pattern coincides with proteins synthesized in vivo during differentiation. Additionally, we find that polyadenylated and nonpolyadenylated myogenic mRNA from a given developmental stage in culture have extremely similar coding potentials.  相似文献   

11.
Changes in the pattern of protein synthesis and in the translatable mRNA population have been examined during auxin-induced root development from excised mung bean seedlings. Several proteins, predominantly of low molecular weight and high pI, as shown by two-dimensional polyacrylamide gel electrophoresis, are synthesized specifically by auxin-treated tissue. These auxin-induced proteins appear between 6 and 12 hours of auxin treatment, reach a maximum at 24 hours, and decline at 48 hours. Untreated seedlings (placed in Hoagland solution), known to produce small number of roots at the cut end probably due to endogeneous auxin accumulated at the cut end through basipetal transport, show low level synthesis of auxin-specific proteins. Antiauxin treatment that completely inhibits auxin-induced rooting also prevents the appearance of auxin-induced proteins. The induction of a group of three to four proteins appears to be specific to antiauxin treatment. In vitro translation of mRNA from auxin-treated tissue, but not of mRNA from antiauxin-treated tissue, yields several polypeptides of low molecular weight and high pI. Since the auxin-induced proteins precede root development and are synthesized transitorily, it is likely that they play some regulatory role during the initiation of root development. The result show that auxin-induced root formation involves altered gene expression.  相似文献   

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The amount of glucose-repressible alcohol dehydrogenase is regulated by the amount of its functional messenger RNA. ADHII2 protein was detected by a radioimmune assay and differentiated from ADHI, the classical ADH isozyme, by limited proteolysis with Staphylococcus aureus protease. When yeast containing the wild-type alleles for ADR2 (the ADH II structural locus) and for ADR1 (its positive regulatory gene) were pulse-labeled with [35S]methionine during derepression, radioactive label accumulated in the antibody-precipitated ADHII coterminously with the appearance of ADHII activity. The kinetics of functional ADHII mRNA appearance during derepression in this strain were shown to be the same as those for ADHII protein synthesis in vivo when RNA, extracted from derepressed cells, was translated in a wheat germ cell-free translation system.The role of the positive regulatory gene, ADR1, in ADHII expression was analyzed using two strains mutated at that locus. Yeast containing the adr1-1 allele are incapable of derepressing ADHII activity. When this strain was pulselabeled with [35S]methionine during derepression, approximately one-tenth to one-twentieth the level of ADHII protein synthesis was detected as in the wild-type strain. When RNA was extracted during derepression from cells containing the udr1-1 allele and translated in a wheat germ cell-free system, little functional ADHII mRNA was found to be present.The role of the ADR1 gene was further analyzed using a strain containing the ADR1-5c allele, which allows constitutive synthesis of ADHII activity. In this strain during glucose repression. ADHII protein synthesis and amount of functional mRNA were at levels comparable to those found for the wild-type strain after complete derepression. Similar kinetics of ADHII protein synthesis and of mRNA accumulation during derepression were observed in the strain carrying the ADR1-5c allele when compared to that carrying the ADR1 allele, but the absolute amounts were greater by three- to fourfold in cells containing the ADR1-5c allele. These results indicate that the ADR1 gene acts to increase the level of functional ADHII mRNA during derepression.  相似文献   

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Ribosomal protein mRNAs increase dramatically during Xenopus development   总被引:3,自引:0,他引:3  
The amount of messenger RNA per microgram of rRNA increases three- to fourfold during Xenopus early development. This increase is the same when measured by stimulation of in vitro protein synthesis or by poly(U) hybridization. The increase in mRNA per embryo therefore is approximately six- to eightfold since the ribosome content doubles between fertilization and the stage 41 tadpole. The amount of ribosomal protein mRNA, as assayed by in vitro protein synthesis, also increases dramatically during early development. This increase is much more pronounced than the general increase in mRNA content, i.e., there is a dramatic increase in the abundance as well as the amount of the ribosomal protein mRNA. Since ribosomal protein mRNAs are predominantly small mRNAs, the increase in ribosomal protein mRNA abundance contributes to the general decrease in the average size of pA+ RNA that occurs during early development in Xenopus.  相似文献   

16.
Molecular cloning of seal myoglobin mRNA.   总被引:9,自引:4,他引:5       下载免费PDF全文
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17.
Messenger RNA has been isolated from the postribosomal supernatant of Spisula solidissima eggs. This mRNA directs the synthesis of several proteins when added to the ascites or wheat germ cell free system. No histone except F1 is coded for by Spisula egg mRNA, in contrast to what has been reported previously for sea urchin egg mRNA. In sea urchin eggs histone mRNA is among the abundant species of maternal mRNA.Histones have been prepared from Spisula embryos at different development stages and histone synthesis followed by incubation with (14C)lysine. The analysis by electrophoresis on acrylamide gels indicates that the pattern of synthesis of histones changes during development and that a new histone F1 fraction is actively synthesized from the 32–64 cells stage. In earlier embryos a different F1 histone is synthesized and the mRNA for this protein may be the only histone mRNA present in eggs.  相似文献   

18.
Myoglobin is a cytoplasmic hemoprotein, expressed solely in cardiac myocytes and oxidative skeletal muscle fibers, that reversibly binds O2 by its heme residue. Myoglobin is an essential oxygen-storage hemoprotein capable of facilitating oxygen transport and modulating nitric oxide homeostasis within cardiac and skeletal myocytes. Functionally, myoglobin is well accepted as an O2- storage protein in muscle, capable of releasing O2 during periods of hypoxia or anoxia. There is no evidence available regarding active sites, ligand binding sites, antigenic determinants and the ASA value of myoglobin in Channa striata. We further document the predicted active sites in the structural model with solvent exposed ASA residues. During this study, the model was built by CPH program and validated through PROCHECK, Verify 3D, ERRAT and ProSA for reliability. The active sites were predicted in the model with further ASA analysis of active site residues. The discussed information thus provides the predicted active sites, ligand binding sites, antigenic determinants and ASA values of myoglobin model in Channa striata.  相似文献   

19.
Infection of ultraviolet light-irradiated Escherichia coli with T7 phage in the presence of chloramphenicol results in synthesis of T7 early messenger RNA but not late mRNA. T7 early mRNA accumulates in terms of acid-insoluble, T7 DNA-hybridizable RNA. However, messenger activity of the same RNA decays rapidly with a half-life of about 6.5 minutes at 30 °C when tested for the ability to direct in vitro protein synthesis. This functional decay of T7 early mRNA is attributable to a loss of structural integrity of the RNA. Polyacrylamide-agarose gel electrophoresis shows that T7 early mRNAs are cleaved, generating smaller-size RNAs. Kinetics of the appearance of T7-specific RNA polymerase, one of the early gene products, during normal T7 infection show that the capacity of the cells to produce the enzyme decays very rapidly when early mRNA synthesis is terminated either by rifampicin or by a natural mechanism programmed by T7. Preferential synthesis of late proteins in the presence of chemically stable early mRNA late in T7 infection may be explained by the observed functional decay of early mRNA.  相似文献   

20.
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   

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