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91	Efeitos da Imunocastração e de agonistas beta-adrenérgicos sobre a qualidade da carne de bovinos / Effects of immunocastration and beta-adrenergic agonists on meat quality of beef cattle Madeline Rezende Mazon 21 March 2016 (has links) Os agonistas beta-adrenérgicos (βAA) são conhecidos por aumentar a hipertrofia muscular e lipólise, neste caso uma maneira de se reduzir o efeito da lipólise seria a imunocastração. Dessa forma, o objetivo deste projeto foi avaliar o efeito dos βAA e da imunocastração sobre a qualidade da carne de bovinos Nelore. Foram utilizados noventa e seis bovinos Nelore, sendo que metade dos animais (n=48) receberam uma dose da vacina de imunocastração, e após 30 dias receberam a segunda dose. A outra metade dos animais (n=48) não recebeu nenhuma dose da vacina. Durante 70 dias os animais foram alimentados com uma dieta padrão composta de 24% volumoso e 76% de concentrado. Após 70 dias de confinamento os animais foram divididos em três grupos, dentro de bloco (peso inicial) e condição sexual e foram alimentados por 30 dias, com umas das seguintes dietas: CON - dieta padrão utilizada na fase anterior, sem a adição de βAA; ZIL - dieta padrão acrescida de 80 mg/dia Cloridrato de Zilpaterol; RAC - dieta padrão acrescida de 300 mg/dia Cloridrato de Ractopamina. Ao final desse período os animais foram abatidos e colhidas amostras do músculo Longissimus dorsi para as avaliações de qualidade de carne, lipídeos totais, perfil de ácidos graxos, análise sensorial do consumidor, perfil morfométrico muscular, expressão dos genes calpaína e calpastatina, comprimento de sarcômero. Para a maioria das características avaliadas não foram observadas interações entre os tratamentos. Ao avaliar o efeito da condição sexual, os animais imunocastrados apresentaram maiores intensidades de cor L, a e b, lipídios totais, ácidos oleico, palmítico e total de monoinsaturados e maior frequência para as fibras oxidativas (FO) e glicolíticas (FG) em relação aos não-castrados. Contudo, os animais não-castrados tiveram uma tendência a apresentarem uma carne mais macia na análise sensorial e obtiveram maior frequência das fibras oxidativasglicolíticas (FOG) em relação aos imunocastrados. Quanto ao efeito dos βAA, o grupo ZIL apresentaram uma carne menos macia na força de cisalhamento, maiores concentrações de ácidos heptadecanoico, linoleico, araquidonico ácido C20:3 N6C8C11C14, ômega 6, maior frequência para as FO e menor para FG em comparação ao grupo RAC e CON. No entanto, os animais do grupo CON e ZIL apresentaram maior área para as FO em comparação ao grupo RAC, enquanto que para as FOG, os animais do grupo CON tiveram maior área do que os animais do grupo RAC e ZIL. Na análise sensorial, os grupos RAC e ZIL receberam menores notas para os atributos textura e qualidade global em relação ao CON. Não foi observado efeito da condição sexual e dos βAA sobre a expressão dos genes e comprimento de sarcômero. Conclui-se que a condição sexual e a suplementação com os βAA podem alterar a qualidade da carne, perfil de ácidos graxos e morfométrico muscular, sem, contudo, alterar a expressão dos genes e do comprimento de sarcômero. / The Beta adrenergic agonist (βAA) are knowed for increase muscle hypertrophy and lipolysis, in this case on way for decrease the lipolysis effect is use the immunocastration. The objective of this research was evaluated the effect of βAA and immunocastration on meat quality of Nellore . Ninety-six Nellore were fed in this trial; half of the animals (n = 48) received one dose of immunocastration vaccine on d 0, and received another dose at d 30. The other half of animals (n = 48) received no vaccine. Animals were fed with a standard diet consisting of 24% forage and 76% concentrate for 70 d. After 70 d of the standard diet, animals were divided into three groups, and were fed 30 d with one of the following diets: CON - standard diet used in the previous phase, without the addition of βAA; ZIL - standard diet plus 80 mg/d Zilpaterol hydrochloride; RAC - standard diet plus 300 mg/d Ractopamine hydrochloride. After this period, animals were harvested and the Longissimus dorsi sample were colleted to evaluate meat quality, total lipid content, fatty acid profile, consumer sensory analysis, muscle morfometric profile, genes expression of calpain and calpastatin and sarcomere length. For almost of characteristics evaluated, were not observed interactions between treatments. The effect of sexual condition, imunocastrated animals showed higher intensity of color L, a and b, total lipidics, oleic, palmitic and total monounsaturated acids and more frequency for oxidative fibers (FO) and glycolytic fibers (FG) in relation at noncastrated. However, non-castrated animals had a tendency to show a meat tender in sensory analysis and more frequency of oxidative-glicolytics fibres (FOG) in relation to imunocastrated. The βAA effect, ZIL group showed a meat less tender, higher concentrations of heptadecanoic, linoleic, araquidic acids, C20:3 N6C8C11C14, ômega 6, higher frequency for FO and less for FG than RAC and CON group. Animals of CON and ZIL group showed more FO area than RAC group, while for the FOG, animals from COM group showed more area than animals from RAC and ZIL group. In the sensory analysis, RAC and ZIL group received lower grades for tenderness and global quality in relation to COM group. Was no observed effect of sexual condition and βAA for genes expressions and sarcomere length. As conclusion, sexual condition and βAA affected the meat quality, fatty acid profile, muscle fibers, but not affect genes expression and sarcomere lenght. Ácidos graxos Calpaína Confinamento Fibras musculares Calpain Fatty acids Feedlot Fiber muscle
92	Caracterização da freqüência de polimorfismos em genes ligados à maciez da carne em bovinos da raça Nelore / Polymorphism frequencies characterization in candidate genes linkage with meat tenderness in Nellore beef cattle Minos Esperândio Carvalho 30 May 2008 (has links) O objetivo deste trabalho foi avaliar o potencial de utilização de marcadores moleculares em genes candidatos da calpaína (CAPN) e calpastatina (CAST) como ferramenta auxiliar para programas de melhoramento de características relacionadas ao crescimento e maciez da carne. Foram avaliados 605 bovinos da raça Nelore, pertencentes à Agropecuária CFM Ltda, com idade média ao abate de 24 meses. Após a extração do DNA de amostras de sangue, por desproteinização em presença de NaCl, a identificação e determinação do polimorfismo para os marcadores moleculares CAPN316, CAPN530, CAPN4751, CAPN4753 e UOGACAST1, foi realizada pelo sistema de detecção TaqManTM utilizando-se PCR em Tempo Real. A análise de maciez da carne, aos 7, 14 e 21 dias de maturação, foi realizada com amostras de carne do Longissimus dorsi, retiradas entre a 12ª e 13ª costela e cisalhadas utilizando-se um Warner Bratzler Shear Force. Nenhum efeito significativo dos marcadores avaliados foi observado para as características de crescimento. Foi verificado efeito significativo, em relação à maciez da carne, para os seguintes polimorfismos: aos 7, 14 e 21 dias de maturação para o marcador CAPN4751; aos 21 dias para o marcador CAPN4753 e aos 14 e 21 dias para o marcador UOGCAST1. Em relação aos efeitos das combinações genotípicas para os marcadores dois a dois, os resultados foram significativos para a combinação CAPN4751/UOGCAST1 nos três tempos de maturação. Para a combinação de marcadores CAPN4753/UOGCAST1 também foram verificados resultados significativos para carnes maturadas aos 14 e 21 dias. Os resultados observados neste trabalho sugerem a possibilidade da utilização de seleção assistida por marcadores (MAS), visando o aumento da qualidade da carne em bovinos da raça Nelore. / The objective of this study was to evaluate the potential utilization of molecular markers on candidate calpain and calpastati n genes as an auxiliary tool for breeding programs on traits related to growth and meat tenderness. A total of 605 Nellore animals, raised by CFM Agro-pecuária Ltda, were used in this study and slaughtered with 24 months in average. After DNA blood samples extraction, by desproteinization in presence of NaCl, the polymorphism (CAPN316, CAPN530, CAPN4751, CAPN4753 and UOGACAST1) identification and determination was realized by TaqManTM detection system using real time PCR. The meat tenderness analysis, at the 7, 14 and 21 days of maturation was realized with Longissimus dorsi meat samples, taken at the 12th and 13th rib interval and Warner Bratzler Peak Shear Force measurements were used. There were no significant effects of molecular markers in growth traits. There were significant effects, regarding to meat tenderness, for following polymorphisms: at 7, 14 and 21 days of maturation, for CAPN4751 marker; at 21 days of maturation, for CAPN4753, and finally, at 14 and 21 days of maturation, for UOGCAST1 marker. In respect to genotypic combination effects analysis for pairwise marker, the results were significant for CAPN4751/UOGCAST1 in three days of maturation. In combination effects for CAPN4753/UOGCAST1 markers, significant effects were also observed for meat tenderness at 14 and 21 days. Theses results suggest that marked selection assisted (MAS) can be used to improve meat quality in Nellore beef cattle. Calpaína Calpastatina Marcadores moleculares Raça Nelore Calpain Calpastatin Molecular markers Nellore beef cattle
93	Analysis of Conditional Knock-out of Calpain Small Subunit, capns1, in Central Nervous System Development and Function Amini, Mandana January 2014 (has links) Calpains, a highly conserved family of calcium-dependent cysteine proteases, are divided in two groups; classical and non-conventional calpains. Calpain-1 and calpain-2, the classical ones, are ubiquitously expressed and abundant in the CNS. Findings through different experimental approaches, predominantly pharmacological calpain inhibitors, proposed the necessity of the proteases for the modulation of various biological events particularly in the CNS, or a functional link between calpain and neurodegeneration. Significant functions associated with calpain activity are neuronal proliferation/differentiation, signal transduction, apoptosis, and synaptic plasticity; or neuronal death in Alzheimer’s disease, Huntington’s disease, Parkinson’s disease, and ischemic stroke. However, due to limited insights of the approaches taken, such as non-specificity of the inhibitors, the exact roles of calpains in the CNS and the key mechanisms underlying them remain controversial. Calpain-1/calpain-2 germline knock-out are embryonic lethal at a very early stage hindering the use of these lines as mouse models for CNS studies. Accordingly, this thesis research introduced a unique brain-specific calpain-1/calpain-2 knock-out and explored the role of the proteases in brain development/function and in neuronal death. The first set of analyses examined how the elimination of calpain-1/calpain-2 activities in mouse brain impacts CNS development in general and synaptic plasticity in CA1 neurons of hippocampus. CNS-specific elimination of CAPNS1, the common small subunit, abolished calpain-1/calpain-2 activities in mouse brain. In contrast to Calpain-1/calpain-2 germ line knock-outs, the brain-specific knock-outs are viable and the general development of mouse brain is normal. However, morphology of dendrites in pyramidal neurons of the hippocampal CA1 region showed significantly decreased dendritic branching complexity and spine density. Consistent with dendrite morphological abnormalities, electrophysiological analyses revealed a significant decrease in field excitatory postsynaptic potentials, long term potentiation, and learning and memory in the hippocampal CA1 neurons of the mutants. In the second part of this research we investigated the direct role of the calpains in neuronal death and their potential downstream targets in in vitro models of PD and ischemic stroke. Our findings indicated that ablation of calpains activity improves survival of different types of neurons against mitochondrial toxin 1-methyl-4-phenylpyridinium (MPP+), glutamate, and hypoxia. Importantly, we demonstrated an increase in p35-cleavage to p25, a cyclin dependent kinase 5 (Cdk5) activator, and that restoration of p25 significantly suppresses the neuronal survival associated with calpain deficiency. Taken together, this work unequivocally establishes two central roles of calpain-1/calpain-2 in CNS function in plasticity and neuronal death. Calpain, Development Dendrite, Spine Synaptic Plasticity Neuronal death Parkinson's Disease Ischemic Stroke
94	The Genetics of Functional Axon Regeneration Using C. Elegans Belew, Micah Y. 25 November 2019 (has links) How do organisms attain the capacity to regenerate a structure, entire body, or not to regenerate? These are fundamental questions in biology for understanding how replicative systems are evolved to renew, age, and/or die. One outstanding question in regenerative biology that attracts attention is how and why the human central nervous system fails to regenerate after injury. Nervous system injuries are characterized by axonal damage and loss of synaptic function that contribute to debilitating neuronal dysfunctions. Although the molecular underpinnings of axon regeneration are well characterized, very little is known about how and what molecular pathways modulate reformation of synapses within regenerating axons to restore function. Thus, understanding the fundamental molecular and genetic mechanisms of functional axon regeneration (FAR), restoration of both axon and synapse, for the functional recovery of the nervous system remains elusive. In Chapter I, I outline the biology of regeneration and provide evolutionary perspectives of this phenomenon. Then, I provide clinical perspectives of central nervous system regeneration and therapeutic innovations. I next introduce the regulators of axon regeneration and how C. elegans as a genetic system allows detailed characterization of axon regeneration. In Chapter II, using C. elegans as a platform, I show how axon regeneration and synaptic reformation are controlled by distinct genetic pathways. I show how Poly-ADP ribose polymerase (PARP) pathway modulates functional restoration by regulating divergent genetic pathways leading to axon regeneration and synapse restoration. Finally, in Chapter III, I summarize the model of axon regeneration, evolutionary perspectives, and epistemic limitations of C. elegans axon regeneration. C. elegans functional axon regeneration axon regeneration PARP calpain IMPDH Genetics Molecular and Cellular Neuroscience Molecular Genetics
95	The Mechanisms of Axon Initial Segment Alteration Due to Disrupted Glucose Metabolism: A Potential Link to Cognitive Impairment Nguyen, Duc Van Minh 24 May 2022 (has links) No description available. Neurosciences axon initial segment methylglyoxal type 2 diabetes cognitive impairment calpain D-lactate
96	Novel Functions of SMN Complex Members and Their Implications in Spinal Muscular Atrophy Walker, Michael Patrick 21 July 2009 (has links) No description available. Molecular Biology SMN Gemin4 SMN COMPLEX snRNP SMA calpain Z-disc
97	Genetic and Functional Analysis of Calpain-14 in Eosinophilic Esophagitis Davis, Benjamin January 2015 (has links) No description available. Biology Animals Physiology Medicine calpain eosinophilic esophagitis desmoglein allergy eosinophil epithelium
98	Regulation of Inflammtory Activation in Endothelial Cells by PIN1 Liu, Tongzheng 15 July 2009 (has links) No description available. Pharmacology endothelial cell activation iNOS COX-2 turnover PIN1 isomerization phosphorylation Calpain Calpastatin inflammatory activation
99	Calcium homeostasis in lens transparency and the involmement of calpains in cataract Lee, Hannah Yun Young January 2006 (has links) The absolute clarity of the lens of the eye is vital in the visual system. The unique structural and physiological properties of the lens are tightly integrated with highly ordered protein content to allow the lens to remain transparent. Consequently, any alteration or disturbance of these highly ordered proteins can affect the optical properties of the lens. In humans, cataracts are the major cause of blindness, yet the exact aetiology of cataract formation (cataractogenesis) is not fully understood. The purpose of the current research was to investigate whether deregulation of the Ca²⁺-dependent enzyme, calpains, following changes in lens Ca²⁺ homeostasis, is a key mechanism leading to undesired cleavage of a number of proteins that are linked with maintaining lens transparency and contributing to cataractogenesis. An ovine lens culture (in vitro) system and the heritable ovine cataract (in vivo) model were used to test the research hypothesis. The Ca²⁺ ionophore, ionomycin, was used to induce a Ca²⁺ overload and in vitro opacification during lens culture. Opacity in the lens was graded by a computer image analysis program. Protein profile (SDS-PAGE, 2-DE and Western detection), calpain activity (casein zymography), lens structure (microscopic view) and cytotoxicity level (LDH leakage assay) were analysed in Ca²⁺-induced opaque lenses. The involvement of calpain during opacification was further examined by applying synthetic exogenous calpain inhibitors to the in vitro system. Two novel exogenous calpain inhibitors were also assessed for their therapeutic potential in preventing the progression of cataracts in the in vivo cataract model by topical administration of the inhibitor direct to the sheep's eye over a 11 week period. HPLC was used to detect the penetration of these compounds into ocular tissues. Sustained Ca²⁺ influx into cultured lenses caused dense opacification. The opacity was characterised by formation of a turbid fraction and cell death in the outer cortex of the ovine lens. There was increased calpain autolysis associated with the progress of opacification, indicating increased calpain activity. Major degradation of the cytoskeletal proteins, spectrin and vimentin, was observed whilst there was limited degradation of the lens structural soluble proteins, crystallins, in response to a Ca²⁺ flux. Lens proteins were protected from degradation by adding synthetic calpain inhibitors to the culture medium. Topical administration of novel anti-calpain molecules failed to retard the progression of cataractogenesis in the ovine inherited cataract model. Further investigation of drug penetration showed that efficacy of inhibitory compounds was limited by permeability of these molecules across the cornea and the ability of the molecules to reach and penetrate into the lens. The ovine lens Ca²⁺-induced opacification (OLCO) model in this thesis has provided a model to understand the role of Ca²⁺ homeostasis in lens transparency. With sustained intracellular Ca²⁺ level, the degradation of cytoskeletal elements is highly correlated with calpain activity. Cataractogenesis is the pathological response to the loss of lens Ca²⁺ homeostasis in this model. The current results support the hypothesis that the deregulation of calpain activity is a trigger for a series of cascading events, leading to death of the cells in the lens. cataractogenesis Ca²⁺ homeostasis proteolysis calpain cytoskeletal proteins crystallins calpain inhibitors ovine lens culture system OLCO model cell death inheritable ovine cataract model cataract 0601 - Biochemistry and Cell Biology
100	ROLE OF THE REACTIVE OXYGEN SPECIES PEROXYNITRITE IN TRAUMATIC BRAIN INJURY Deng, Ying 01 January 2008 (has links) Reactive oxygen species (ROS) is cytotoxic to the cell and is known to contribute to secondary cell death following primary traumatic brain injury (TBI). We described in our study that PN is the main mediator for both lipid peroxidation and protein nitration, and occurred almost immediately after injury. As a downstream factor to oxidative damage, the peak of Ca2+-dependent, calpainmediated cytoskeletal proteolysis preceded that of neurodegeneration, suggesting that calpain-mediated proteolysis is the common pathway leading to neuronal cell death. The time course study clearly elucidated the interrelationship of these cellular changes following TBI, provided window of opportunity for pharmacological intervention. Furthermore, we conducted a pharmacological study to solidify our hypothesis. First of all, we tested the potency of a membrane permeable, catalytic scavenger of PN-derived free radicals, tempol for its ability to antagonize PN-induced oxidative damage. Tempol successfully inhibited PNinduced protein nitration at dosages of 30, 100 and 300mg/kg. Moreover, early single dose of 300mg/kg was administered and isolated mitochondria were examined for respiratory function and oxidative damage level. Our data showed that tempol reduced mitochondrial oxidative damage, and maintained mitochondrial function within normal limits, which suggested that tempol is efficiently permeable to mitochondrial membrane and mitochondrial oxidative damage is essential to mitochondrial dysfunction. Next, we found that calpainmediated proteolysis is reduced at early treatment with a single dose of tempol. However, the effect of tempol on calpain is short-lived possibly due to systematic elimination. In our multiple dose study, tempol showed a significant inhibitory effect on SBDPs. Consequently, we measured neuordegeneration with the de Olmos aminocupric silver staining method at 7 days post-injury and detected a significant decrease of neuronal cell death. Together, the time course study and pharmacological study strongly support the hypothesis that PN is the upstream mediator in secondary cell death in the CCI TBI mouse model. Moreover, inhibition of PN-mediated oxidative damage with the antioxidant, tempol, is able to attenuate multiple downstream injury mechanisms. However, targeting PN alone may be clinically impractical due to its limited therapeutic window. This limitation may be overcome in future studies by a combination of multiple therapeutic strategies. Traumatic brain injury Peroxynitrite Tempol Mitochondrial dysfunction Calpain-Mediated Proteolysis Medical Anatomy Medical Neurobiology Medicine and Health Sciences

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