Global ETD Search

111	Évaluation clinique et biologique de l'état nutritionnel de l'enfant / Clinical and biological assessment of nutritional status in children Luca, Arnaud De 08 December 2014 (has links) La malnutrition protéino-énergétique (MPE), de diagnostic clinique, est insuffisamment recherchée à l'hôpital. Depuis 2010, nous avons initié des enquêtes annuelles multicentriques nationales puis internationales qui fixent la fréquence de la MPE chez l'enfant hospitalisé autour de 10%. La gravité de la MPE dépend de son impact sur le métabolisme protéique. Il manque actuellement un biomarqueur simple et fiable de la MPE. La mesure de l'abondance isotopique naturelle (AIN) en 15N dans les protéines totales de phanères est testée comme index du métabolisme protéique. Cette méthode innovante est non invasive et adaptée à la pédiatrie.Nous avons observé une AIN en 15N des cheveux systématiquement supérieure chez le nouveau-né par rapport à sa mère, alors que les acides aminés proviennent d'une source commune, suggérant un métabolisme protéique différent. Dans la néphropathie diabétique, l'AIN en 15N des cheveux était corrélée aux indices de filtration glomérulaire et donc à l'impact de la maladie sur le métabolisme protéique. Chez la souris, la restriction protéique pendant la gestation et/ou la lactation entrainait une modification de l'AIN en 15N à 16 mois, témoin d'une empreinte nutritionnelle à l'âge adulte. Nos données chez l'homme et chez l'animal suggèrent un fractionnement isotopique lié au métabolisme protéique. Cette propriété fait de la mesure de l'AIN en 15N un potentiel biomarqueur utile en pratique clinique. Il est nécessaire de poursuivre nos travaux de recherche chez l'animal et sur la cellule pour explorer les mécanismes biochimiques responsables. / Protein-energy malnutrition (PEM) is insufficiently investigated in pediatric wards. Since 2010, we initiated annual national then international multicentric surveys, which evaluated PEM frequency around 10%. PEM diagnosis is clinical and its severity depends on the impact on protein metabolism. It currently lacks a simple and reliable biological marker of PEM. The measurement of the hair bulk 15N natural isotopic abundance (NIA) is assessed as an index of the protein metabolism. This innovative measurement is a non-invasive method, suitable for Pediatrics.We observed a bulk hair 15N NIA systematically higher in the newborn from its mother, while amino acids come from the same source, suggesting a different protein metabolism. In diabetic nephropathy, bulk hair 15N NIA was correlated to glomerular function indices, and thus to the impact of chronic kidney disease on protein metabolism. In mice, protein restriction during gestation and/or lactation resulted in a modification of bulk hair 15N NIA at 16 months, suggesting a nutritional imprinting in adulthood. Our data in humans and animals suggest that an isotopic fractionation is linked to protein metabolism. Thus bulk 15N NIA may be a potential useful biomarker in clinical practice. Further researches in animals and cells are needed to explore the biochemical mechanisms of isotope fractionation. Isotopes--Séparation Malnutrition Protéines--Métabolisme Pédiatrie Spectrométrie de masse Isotopes--Separation Malnutrition Proteins--Metabolism Paediatrics Mass spectrometry 616.39
112	Ryanodine receptors in calcium signaling pathways Li, Yiming 01 January 2008 (has links) Calcium (Ca2+) plays an important role as a second messenger, transmitting the message of arrival of stimuli such as hormones and neurotransmitters to the intracellular system that carries out the cellular response to the stimulus. The universality of Ca2+ as an intracellular messenger depends on its enormous versatility. This versatility is exploited to control processes as diverse as fertilization, proliferation, development, learning and memory, contraction and secretion, and must be accomplished within the context of Ca2+ being highly toxic. Ryanodine receptors (RyRs) and inositol trisphosphate receptors (IP3Rs) are Ca2+ -release channels located on intracellular membranes of the endoplasmic reticulum (ER)/sarcoplasmic reticulum (SR) that perform essential functions as key targets of hormone/neurotransmitter action to initiate intracellular Ca2+ signals. The purpose of this project was to study the role of RyR2 in Ca2+ signaling in the NG115-401L neuronal cell line. siRNA transfection methods were employed to knockdown RyR2 expression levels in NG115-401L cells. We used reverse transcription and real-time PCR to evaluate RyR2 gene expression in transfected/untransfected cells. We also evaluated cytosolic Ca2+ changes induced by RyR activators or regulators, using fura-2 AM as the Ca2+ indicator. Successful RyR2 gene knockdown allowed us to carry out some initial experiments to characterize the specific roles played by the RyR2 receptor isoform. We examined cell responses to FK-506 under the condition of RyR2 knockdown, finding that RyR2 appears to confer selectivity to this response. Finally, the effects of siRNA transfection and FK-506 treatment on NG115-401L cell growth were evaluated. These experimental results may contribute to future studies of RyR2, and help develop novel treatments for RyR2-base d dysfunctional diseases. Proteins Synthesis Proteins Metabolism Regulation Cellular signal transduction Genetic translation Calcium Physiological effect Medicine and Health Sciences Pharmacy and Pharmaceutical Sciences
113	The role of Rtr1 and Rrp6 in RNAPII in transcription termination Fox, Melanie Joy 31 August 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / RNA Polymerase II (RNAPII) is responsible for transcription of messenger RNA (mRNA) and many small non-coding RNAs. Progression through the RNAPII transcription cycle is orchestrated by combinatorial posttranslational modifications of the C-terminal domain (CTD) of the largest subunit of RNAPII, Rpb1, consisting of the repetitive sequence (Y1S2P3T4S5P6S7)n. Disruptions of proteins that control CTD phosphorylation, including the phosphatase Rtr1, cause defects in gene expression and transcription termination. There are two described RNAPII termination mechanisms. Most mRNAs are terminated by the polyadenylation-dependent cleavage and polyadenylation complex. Most short noncoding RNAs are terminated by the Nrd1 complex. Nrd1-dependent termination is coupled to RNA 3' end processing and/or degradation by Rrp6, a nuclear specific subunit of the exosome. The Rrp6-containing form a 3'-5' exonuclease complex that regulates diverse aspects of nuclear RNA biology including 3' end processing and degradation of a variety of noncoding RNAs (ncRNAs). It remains unclear whether Rrp6 is directly involved in termination. We discovered that deletion of RRP6 promotes extension of multiple Nrd1-dependent transcripts resulting from improperly processed 3' RNA ends and faulty transcript termination at specific target genes. Defects in RNAPII termination cause transcriptome-wide changes in mRNA expression through transcription interference and/or antisense repression, similar to previously reported effects of Nrd1 depletion from the nucleus. Our data indicate Rrp6 acts with Nrd1 globally to promote transcription termination in addition to RNA processing and/or degradation. Furthermore, we found that deletion of the CTD phosphatase Rtr1 shortens the distance of transcription before Nrd1-dependent termination of specific regulatory antisense transcripts (ASTs), increases Nrd1 occupancy at these sites, and increases the interaction between Nrd1 and RNAPII. The RTR1/RRP6 double deletion phenocopies an RRP6 deletion, indicating that the regulation of ASTs by Rtr1 requires Rrp6 activity and the Nrd1 termination pathway. ChIP-Seq RNAPII Transcription RNA-Sequencing Transcription Termination RNA polymerases -- Research Gene expression Protein kinases Proteins -- Metabolism Phosphorylation
114	Regulation of synaptic plasticity at the Drosophila larval NMJ : the role of the small GTPase Rac Warren-Paquin, Maude. January 2008 (has links) No description available. Drosophila -- physiology. Synaptic Transmission -- physiology. Neuronal Plasticity -- physiology. rac GTP-Binding Proteins -- metabolism. Drosophila Proteins. Neuromuscular Junction -- physiology.
115	The cytoprotective role of Ras signaling in glomerular epithelial cell injury / Huynh, Carl. January 2007 (has links) No description available. Complement Membrane Attack Complex. Kidney Glomerulus -- metabolism. ras Proteins -- metabolism. Epithelium -- metabolism. Cytoprotection -- physiology.
116	Neuromolecular changes in developing offspring following maternal infection : implications for schizophrenia Vanderbyl, Brandy. January 2008 (has links) No description available. Schizophrenia -- genetics. Rats. Rats, Sprague-Dawley. Nerve Tissue Proteins -- metabolism. Schizophrenia -- etiology.
117	Isolamento e análise funcional do gene que codifica uma proteína serina-treonina quinase que modula a expressão de genes regulados por carboidratos em Trichoderma reesei / Isolation and functional analysis of the gene encoding a serine-threonine protein kinase that modulates the expression of genes regulated by carbohydrates Trichoderma reesei Matheucci Junior, Euclides 09 November 2000 (has links) O gene TrSNF1, homólogo aos membros da subfamília das proteínas serina-treonina quinases ativadas por AMP (AMPK) e relacionadas a SNF1, foi isolado do fungo filamentoso trichoderma reesei. A seqüência de aminoácidos putativa possui um domínio de quinase com 42% de identidade e 59% de similaridade com outras proteínas quinases da mesma subfamília. Em S. cerevisiae a SNFl é essencial para a expressão de genes reprimidos por glicose, em resposta a privação de glicose do meio de cultura. A expressão de TrSNFl em levedura mutante para SNF1, restaura a função de SNF1. A expressão de um antisense de TrSNFl em T. reesei causa um atraso na expressão do gene regulado por glicose, CBHI. Além disso, em experimento utilizando matrizes de DNA foi possível observar uma alteração da tendência global da expressão gênica entre a cepa selvagem e a cepa antisense. A observação da homologia estrutural com proteínas quinase da mesma subfamília, a similaridade funcional com SNFl de S. cerevisiae, e a alteração no padrão da expressão gênica in vivo, sugerem que TrSNFl pode estar envolvido na regulação do metabolismo de carboidratos em T. reesei. / A gene homologue to the members of the AMP-activated/SNFl protein kinase subfamily, TrSNF1, was isolated from the filamentous fungus Trichoderma reesei. The predicted protein of 692 amino acids has a kinase domain, that share 42 % identity and 59 % similarity to that of serine/threonine protein kinase of this family. In Saccharomyces cerevisiae, the SNFl protein kinase is required for expression of glucose repressed genes in response to withdrawal of glucose from the medium. Expression of the Trichoderma reesei SNF1-related sequence in yeast SNFl mutant restores SNFl function. The TrSNFl antisense expression in T. reesei causes a control alteration in the glucose-regulated gene CBHI. The observed structural identity with the AMP-activated/SNFl protein kinase subfamily, and the functional similarity to the yeast SNFl suggest that the TrSNFl may be involved in the regulation of sugar metabolism in Trichoderma reesei. Biologia molecular Carbohydrates (Metabolism) Carboidratos (Metabolismo) Clonagem Cloning DNA DNA Filamentous fungus Fungo filamentoso Kinase Metabolism Metabolismo Molecular biology Proteínas (Metabolismo) Proteins (Metabolism) Quinase Snf-1 Snf-1
118	Estudo da atividade inibitória da troponina I através de mutações sítio-dirigidas / Study of the inhibitory activity of troponin I by site-directed mutagenesis Quaggio, Ronaldo Bento 06 October 1994 (has links) A troponina I (TnI) é a sub-unidade inibitória do complexo troponina, responsável pela regulação da contração do músculo esquelético. Foi demonstrado que sua ação inibitória sobre a Mg2+ATPase da actomiosina, deve-se principalmente à região entre os resíduos 96 e 116 (região do peptídeo inibitório). Para estudar o mecanismo de inibição a nível molecular, produzimos três mutantes na região do peptídeo inibitório através de mutações sítio-dirigidas. Substituímos os resíduos lisina 105 por ácido glutâmico (K105E), fenilalanina 106 por tirosina (F106Y) e arginina 113 por ácido glutâmico (R113E). As troponinas I mutantes foram expressas em E.coli, purificadas e ensaiadas em sua atividade inibitória, interações com os outros componentes do complexo regulatório e sua capacidade regulatória. Os resultados obtidos indicam que a mutação na posição 105 alterou a interação da proteína com a tropomiosina, diminuindo sua atividade inibitória e afinidade pela actina-tropomiosina. A substituição na posição 113 alterou a interação da proteína com a actina e com a actina-tropomiosina, também diminuindo a atividade inibitória na presença de tropomiosina e inviabilizando a inibição na ausência de tropomiosina. Já a substituição na posição 106 não produziu alteração detectável. Concluímos que o resíduo 105 faz parte do sítio de ligação da troponina I ao complexo actina-tropomiosina e que o resíduo 113 participa diretamente do mecanismo de inibição. Desta forma, definimos duas interfaces de interação da troponina I com o filamento de actina-tropomiosina, necessárias a ligação da troponina I ao filamento e inibição da ATPase. / Troponin I (TnI) is the inhibitory subunit of the troponin complex, responsible for the regulation of skeletal muscle contraction. It has been demonstrated that TnI\'s inhibitory action on Mg2+ATPase of actomyosin is due principally to the region between residues 96 and 116 (the inhibitory region). To study the inhibitory mechanism at the molecular level, we produced three mutants of the inhibitory region by site-directed mutagenesis. We substituted lysine 105 for glutamic acid (K105E), phenylalanine 106 for tyrosine (F106Y) and arginine 113 for glutamic acid (R113E). The TnI mutants were expressed in E. coli, purified and analyzed for their inhibitory activity, interaction with other components of the regulatory complex and regulatory capacity. The results indicate that the mutation in K105E modified the interaction of TnI with tropomyosin, reduced its inhibitory activity and actin-tropomyosin affinity. The mutant R113E displayed modified interaction with actin and actin-tropomyosin, reduced inhibitory activity in the presence of tropomyosin and essentially no inhibitory activity in the absence of tropomyosin. The mutant F106Y behaved essentially like wild-type TnI. We conclude that residue 105 is part of the site by which troponin I binds to the actin-tropomyosin and that residue 113 participates directly in the inhibitory mechanism. In this way, we have defined two interfaces between troponin I and the actin-tropomyosin which are necessary for binding TnI to the filament and to inhibit the actomyosin ATPase. Biochemistry Bioquímica Inhibitory peptide Metabolism Metabolismo Mutações sítio-dirigidas Peptídeo inibitório Proteínas (Metabolismo) Proteins (Metabolism) Site-directed mutagenesis Troponin I Troponina I
119	Allergen-induced asthma is decreased in decorin-deficient mice Marchica, Cinzia Loreta, 1984- January 2008 (has links) Decorin, is an extracellular matrix proteoglycan with important biological functions. Decorin deficiency affects collagen fibrillogenesis, airway mechanics, airway-parenchymal interdependence, and airway smooth muscle proliferation and apoptosis. We questioned whether decorin deficiency would alter allergen-induced asthma in a mouse model. Decorin-/- and decorin+/+ mice (C57Bl/6) were sensitized and challenged with ovalbumin. Control animals received saline. Responsiveness was assessed at baseline and after delivery of increasing concentrations of methacholine. Histological analyses were also performed. Decorin deficiency resulted in more modest hyperresponsiveness. Respiratory resistance and elastance along with tissue damping and tissue elastance, were increased in ovalbumin decorin +/+ and decorin-/-, but more so in decorin+/+ . Airway resistance was increased in ovalbumin decorin+/+ only. Inflammation and collagen staining within the airway wall, were increased in ovalbumin decorin+/+ mice only; whereas biglycan was significantly increased in ovalbumin decorin-/- mice only. These results reflect the role of decorin in the development of allergen-induced asthma. Asthma -- physiopathology. Respiratory System -- physiopathology. Allergens -- adverse effects. Airway Resistance -- physiology. Proteoglycans -- metabolism. Mice. Mice, Inbred C57BL.
120	Kaposi's sarcoma-associated herpesvirus ORF57 protein interacts with PYM to enhance translation of viral intronless mRNAs Boyne, J. R., Jackson, B. R., Taylor, A., Macnab, S. A., Whitehouse, A. January 2010 (has links) Kaposi's sarcoma-associated herpesvirus (KSHV) expresses numerous intronless mRNAs that are unable to access splicing-dependent cellular mRNA nuclear export pathways. To circumvent this problem, KSHV encodes the open reading frame 57 (ORF57) protein, which orchestrates the formation of an export-competent virus ribonucleoprotein particle comprising the nuclear export complex hTREX, but not the exon-junction complex (EJC). Interestingly, EJCs stimulate mRNA translation, which raises the intriguing question of how intronless KSHV transcripts are efficiently translated. Herein, we show that ORF57 associates with components of the 48S pre-initiation complex and co-sediments with the 40S ribosomal subunits. Strikingly, we observed a direct interaction between ORF57 and PYM, a cellular protein that enhances translation by recruiting the 48S pre-initiation complex to newly exported mRNAs, through an interaction with the EJC. Moreover, detailed biochemical analysis suggests that ORF57 recruits PYM to intronless KSHV mRNA and PYM then facilitates the association of ORF57 and the cellular translation machinery. We, therefore, propose a model whereby ORF57 interacts directly with PYM to enhance translation of intronless KSHV transcripts. Active transport; Cell nucleus; Genetics Carrier proteins; Metabolism Cytoplasm Exons Herpesvirus 8 Humans Open reading frames; Physiology RNA splicing RNA transport Messenger Ribosomes Virion REF 2014

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