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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
101

The deubiquitinating enzyme USP19 negatively regulates the expression of muscle-specific genes in L6 muscle cells /

Sundaram, Priyanka. January 2008 (has links)
No description available.
102

Muscle Protein Phenotypes and the Probable Evolutionary Origin of a Unisexual Fish, Poecilia Formosa, and Its Triploid Derivatives

Monaco, Paul J., Rasch, Ellen M., Balsano, Joseph S., Turner, Bruce J. 01 January 1982 (has links)
Several species‐specific proteins have been identified by polyacrylamide gel electrophoresis (PAGE) of skeletal muscle extracts from the diploid gynogen, Poecilia formosa, its related triploid unisexuals, and their sympatric, bisexual species, P. mexicana and P. latipinna. These water‐soluble, low molecular weight proteins (7,000‐13,000) comigrate with a fraction of purified rabbit parvalbumin on nondenaturing gels and show staining properties similar to rabbit parvalbumins. The electrophoretic patterns of these muscle proteins provide a set of distinctive phenotypic markers for each of the host species involved in naturally occurring breeding complexes with P. mexicana × P. latipinna show no evidence of sexual dimorphisms. Furthermore, the hybrid phenotypes are those that would be predicted from appropriate combinations of parental alleles at three gene loci. The patterns found by PAGE for several generations of pedigreed stocks of P. formosa show strictly matroclinous inheritance of a characteristic muscle protein phenotype and coupled with the electrophoretic patterns of several enzymic proteins reflect the probable hybrid origin of this diploid unisexual. Finally, paternal contributions by P. mexicana to the hybrid genome of triploid unisexuals are clearly demonstrated by comparative analyses of muscle protein phenotypes for P. formosa and its contemporary host species. Our identification of distinctive phenotypic markers in the muscle proteins of several poeciliid species involved in unisexual‐bisexual breeding complexes provides an important new tool for further studies on the adaptive significance of unisexuality, hybridization, and fixed heterozygosity in the evolutionary biology of these fishes.
103

Biological markers of weight loss and muscle protein metabolism in early non-small cell lung cancer

Mehrfar, Parisa. January 2008 (has links)
No description available.
104

Exercise-induced muscle soreness : a qualitative and quantitative study of human muscle morphology and function

Fridén, Jan January 1983 (has links)
Exercise-induced muscle soreness is characterized by stiffness, tenderness and pain during active movements and weakness of the affected musculature the days after unusually or particularly heavy work. The most pronounced subjective symptoms do not arise immediately but rather between a couple of hours to some days after the exercise (a delayed-onset of muscle soreness), the intensity of pain is greatest about 48 hours after the work. A particular association exists between muscle soreness and eccentric contractions. Despite the fact that muscle soreness is a well known phenomenon in the sphere of sports as well as working life, the pathophysiological mechanisms underlying this are still not understood. In the present study a detailed analysis of human muscle fibre population structure after high tension work (eccentric exercise) that gave rise to muscle soreness, was carried out. The objective was to elucidate how fibres of different types are influenced by repeated muscle contractions reaching extreme tension levels using qualitative and quantitative light and electron microscopic techniques. It was hoped that such morphological analysis would provide a basis for discussion of possible causes for muscle soreness. The muscle function after the work was measured by isokinetic methods. To improve the basis for the ultrastructural analysis the fibre populations in untrained and en­durance trained human m. vastus lateralis of age-matched individuals were classified into different fibre type groups according to their ultrastructure. The selective glycogen depletion from Type 1 fibres seen after long term submaximal work, visualized electron microscopically with PA-TSC-SP staining, substantiated the usefulness of the appearance of the M-band to differentiate between fibre types. Stereological data showed that neither volume density of mitochondria nor of lipid droplets provide sufficient criteria to differentiate between fibre types. After an eccentric exercise regimen sore muscles (m. soleus or m. vastus lateralis) showed disturb­ances of the cross striated band pattern. Fibres with disorganized myofibrillar material made up 1/3, 1/2 and 1/10 of the analysed material, 1 hour, 3 and 6 days after exercise, respectively. The myofibril­lar lesions were preferably localized in the Z-band. This showed streaming, broadening and sometimes total disruption. The Type 2 fibres were most affected. The reduction of strength was greatest with the most rapid contractions. Strength remained de­creased the period when the structural damage was most pronounced. Eight weeks of eccentric muscle training reduced all the above negative effects. The results indicate that the Z-disc constitute the weak link in the myofibrillar contractile chain at high muscle tensions. It is suggested that the myofibrillar lesions are a direct result of mechanical tearing. Rupture of myofibrils is thought to result in formation of protein components and a con- sequental release of protein bound ions that via osmosis result in oedema and soreness. Training, using eccentric contractions over a long period of time leads to adaptations at the fibre level by a reorgani­zation of the contractile apparatus as well as an optimization of nervous coordination. / <p>S. 1-40: sammanfattning, s. 41-79: 5 uppsatser</p> / digitalisering@umu
105

Influência das HSPs (heat shock proteins) e do mTORC-1 (mammalian target of rapamycin complex 1) na regeneração de músculos esqueléticos. / Influence of HSPs (heat shock proteins) and mTORC1 (mammalian target of rapamycin complex 1) in skeletal muscle regeneration.

Conte, Talita Cristiane 07 December 2009 (has links)
O objetivo deste trabalho foi contribuir para o melhor entendimento dos mecanismos intracelulares envolvidos na regeneração muscular esquelética, através do estudo da influência das proteínas de choque térmico (HSPs) e do mTORC1 (mammalian target of rapamycin complex 1) no processo regenerativo muscular. O tratamento com radicicol (indutor de HSPs) em músculos lesados induziu aumento da área de secção transversal das fibras musculares em 10 e 21 dias após lesão e aumento do número de células satélites e de fibras musculares em diferenciação em 1 e 10 dias após lesão, respectivamente, quando comparado aos seus respectivos controles apenas lesados. O tratamento com rapamicina (inibidor de mTORC1) em músculos lesados induziu uma diminuição maior da área de secção transversal das fibras musculares em 10 e 21 dias após lesão e menor síntese protéica muscular em 10 dias após lesão quando comparado aos músculos somente lesados. Nossos resultados sugerem que as HSPs e o mTORC1 são importantes para o processo de regeneração muscular esquelética. / The goal of this work was to contribute to a better understanding about the intracellular mechanisms involved in skeletal muscle regeneration by studying the influence of heat shock proteins (HSPs) and mTORC1 (mammalian target of rapamycin complex 1) in the muscle regeneration process. The treatment with radicicol (a HSP inductor) in injured muscles induced increase of myofiber cross section area at 10 and 21 days post lesion and increased number of satellite cells and differentiating myofibers at 1 and 10 days post lesion, respectively, when compared to their respective injured controls. The treatment with rapamycin (a mTORC1 inhibitor) in injured muscles induced a more accentuated decrease in myofiber cross section area at 10 and 21 days post lesion and decreased muscle protein synthesis at 10 days post lesion when compared to only-injured muscles. Our results suggest that HSPs and mTORC1 are important to the process of skeletal muscle regeneration.
106

Tropomiosinas contendo 5-hidroxitriptofano: sondas especificas para interações no filamento fino / Tropomyosins containing 5-hydroxytryptophan: probes specific for interactions in thin filament

Ferreira, Aurea Denise de Sousa Soller 08 March 2002 (has links)
Tropomiosina (Tm) é uma proteína coiled-coil de 284 aminoácidos que interage de uma maneira cabeça-cauda para formar filamentos e liga-se a filamentos de actina. Em músculos esqueléticos Tm interage com Troponina (Tn) e participa na regulação da contração muscular de forma dependente de cálcio. Após a análise da seqüência de isoformas de Tm observamos que os resíduos 258-275 apresentam um padrão de polaridade específico para isoformas de músculos estriados, porém atípico para estruturas coiled-coil. Baseados nessas observações, produzimos versões recombinantes da tropomiosina polimerizável (ASTm) e não polimerizável (nfTm) com 5-hidroxitriptofano (50HW) incorporado em posições específicas na região C-terminal. A caracterização desses mutantes permitiu a identificação de posições em regiões da molécula onde Tm interage com várias proteínas (actina, troponina e outras moléculas de tropomiosina) porém cada sonda apresenta fluorescência especificamente sensível a apenas uma dessas interações. A tropomiosina com 50HW na posição 269 tem sua fluorescência sensível à polimerização. Utilizando esse mutante, obtivemos valores para a constante de afinidade para a polimerização de Tm em várias concentrações de sal, que descrevem a alta dependência entre interação cabeça-cauda e força iônica (Sousa & Farah, J. Biol. Chem., 2002, J. Biol. Chem., 277 (3), 2081-8). Tropomiosinas contendo 50HW nas posições 261 e 263 possuem fluorescência seletivamente sensível à ligação de actina e troponina, respectivamente (Sousa & Farah, 2001, Biophysical J., 80 (1), Part 2, 91&#170;, abstract). Utilizando fragmentos de TnT, mapeamos a sensibilidade de AS263(50HW) à região T1 da TnT (Oliveira et al., 2000, J. Biol. Chem., 275 (36), 27513-9). Obtivemos valores de afinidade para ligação da troponina à tropomiosina: em ausência de actina -Ca2+ (2, 5 x 106M-1) e em presença de actina +Ca2+ (4, 3 x 107 M-1) e de actina -Ca2+ (5, 3 x 107 M-1). Utilizando os mutantes não polimerizáveis (nfTm) investigamos a influência da interação cabeça-cauda nas interações para as quais cada sonda é sensível (Sousa et al., Biophys. J., 2002, abstract in press). / Tropomyosin (Tm) is a coiled-coil protein that polymerizes by head-totail interactions in an ionic-strength-dependent manner. In skeletal muscle,Tm interacts with troponin (Tn) to modulate muscle contraction via its Ca2+-dependent repositioning on the actin filament. Since residues 258-275 present a striated muscle-specific pattern atypical for a coiled-coil structure, we produced a total of 18 polymerizable (ASTm) and non-polymerizable (nfTm) versions of recombinant Tm with tryptophan analogues probes incorporated at specific positions near their C-termini. We found three mutants whose fluorescence are specifically sensitive to Tn-binding (position 263), actin-binding (261) or Tm polymerization (269). We used these mutants to: i) quantitatively investigate the ASTm monomer - polymer equilibrium and its dependence on ionic strength and determine a minimum number effective charges involved in stabilizing the head-to-tai/ interaction, ii) demonstrate that amino acid residue 263 of Tm interacts with residues 77-157 of TnT and that neighboring amino acid sequences along the primary structure of TnT modulate this interaction, iii) quantitatively analyze the binding of the ASTm mutants to Tn, in the presence and in the absence of actin and Ca2+; and iv) qualitatively investigate the influence of the head-to-tail overlap in Tm binding to actin and/or Tn.
107

Intracellular signaling, sarcopenia, and exercise

Williamson, David L. January 2002 (has links)
The purpose of this investigation was to examine differences under resting conditions (baseline) and after a bout of resistance exercise, in the total amount and the activation (phosphorylation) of the p42/44 MAPK signaling cascade proteins (ERK 1/2, p90RSK, and MNK 1) in young and old men. Eight young (22±1 yr) and eight old (79±3 yr) men underwent a resting muscle biopsy of the vastus lateralis, then a knee extensor resistance exercise session (29 contractions at -70% of max), followed by a post-exercise biopsy. The total protein expression and phosphorylation state for ERK 1/2, p90RSK, and MNK 1 was determined by Western immunoblot analysis. Total protein expression of ERK 1/2 and MNK 1 were not different between the young and old, before and after exercise. The resistance exercise bout caused an increase in phosphorylation of the ERK 1/2, p90RSK, and MNK 1 proteins (73, 95, and 61%, respectively; P<0.05) in the young men. Conversely, the older men showed a decrease in ERK 1/2, p90RSK, and MNK1 phosphorylation (-48, -62, and -37%, respectively; P<0.05) after the exercise bout (versus old pre). Although, the old men displayed higher pre-exercise phosphorylation of these proteins versus young pre-exercise (131, 248, and 74%, respectively; P<0.05). This investigation is the first to provide evidence that MAPK signaling pathways differentially respond under resting and exercise conditions in skeletal muscle of young and old men. These findings may have implications for other processes (e.g. transcription and translation) involved in skeletal muscle type and growth, when examining the changes occurring with aging muscle before and after resistance exercise/training. / School of Physical Education
108

Old-age muscle atrophy: cellular mechanisms and behavioral consequences : an experimental study in the rat /

Altun, Mikael, January 2007 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 5 uppsatser.
109

Muscle protein synthesis : effects of metabolic stress and feeding /

Tjäder, Inga, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 4 uppsatser.
110

Influência das HSPs (heat shock proteins) e do mTORC-1 (mammalian target of rapamycin complex 1) na regeneração de músculos esqueléticos. / Influence of HSPs (heat shock proteins) and mTORC1 (mammalian target of rapamycin complex 1) in skeletal muscle regeneration.

Talita Cristiane Conte 07 December 2009 (has links)
O objetivo deste trabalho foi contribuir para o melhor entendimento dos mecanismos intracelulares envolvidos na regeneração muscular esquelética, através do estudo da influência das proteínas de choque térmico (HSPs) e do mTORC1 (mammalian target of rapamycin complex 1) no processo regenerativo muscular. O tratamento com radicicol (indutor de HSPs) em músculos lesados induziu aumento da área de secção transversal das fibras musculares em 10 e 21 dias após lesão e aumento do número de células satélites e de fibras musculares em diferenciação em 1 e 10 dias após lesão, respectivamente, quando comparado aos seus respectivos controles apenas lesados. O tratamento com rapamicina (inibidor de mTORC1) em músculos lesados induziu uma diminuição maior da área de secção transversal das fibras musculares em 10 e 21 dias após lesão e menor síntese protéica muscular em 10 dias após lesão quando comparado aos músculos somente lesados. Nossos resultados sugerem que as HSPs e o mTORC1 são importantes para o processo de regeneração muscular esquelética. / The goal of this work was to contribute to a better understanding about the intracellular mechanisms involved in skeletal muscle regeneration by studying the influence of heat shock proteins (HSPs) and mTORC1 (mammalian target of rapamycin complex 1) in the muscle regeneration process. The treatment with radicicol (a HSP inductor) in injured muscles induced increase of myofiber cross section area at 10 and 21 days post lesion and increased number of satellite cells and differentiating myofibers at 1 and 10 days post lesion, respectively, when compared to their respective injured controls. The treatment with rapamycin (a mTORC1 inhibitor) in injured muscles induced a more accentuated decrease in myofiber cross section area at 10 and 21 days post lesion and decreased muscle protein synthesis at 10 days post lesion when compared to only-injured muscles. Our results suggest that HSPs and mTORC1 are important to the process of skeletal muscle regeneration.

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