Global ETD Search

71	Exploring the Role of Calcium-Binding Protein Calreticulin in the Mouse Suprachiasmatic Nucleus Birkholz, Tyler M. 07 August 2019 (has links) No description available. Biology Molecular Biology Neurosciences circadian calcium calcium-binding proteins calreticulin stem cells calregulin neuroscience induction
72	Interaction Between Gestational Immune Activation and Environmental Enrichment During Pregnancy on ER-α and Iba-1 Counts in the Postpartum Rat Hippocampus Mahendran, Nivethine 15 September 2023 (has links) The maternal brain experiences a high level of plasticity during pregnancy which is understood to be largely mediated by changes to the maternal immune, endocrine and nervous systems to prepare for offspring care. Given the prevalence of infections during pregnancy, the effect of gestational immune activation (GIA) on these systems and the maternal brain have not been fully characterized. In this work, GIA is used with respect to immune activation in the dams, instead of the maternal immune activation (MIA) terminology that is typically used for offspring exposure. In addition to this, the protective effects of environmental enrichment against biological stressors such as an infection have only been investigated within the context of MIA offspring. This study examines the effects of lipopolysaccharide (LPS) induced GIA and housing conditions on the postpartum maternal hippocampus, a region of the brain that plays an in-direct role in supporting maternal behaviours. This is achieved through examining the number of ER-α positive cells and active microglia (Iba-1 positive cells) in the different layers of the postpartum maternal rat hippocampus. Nulliparous female Sprague-Dawley rats, housed in either animal care control (ACC) or environmental enrichment (EE) conditions, were treated with intraperitoneal injections of 100μg/kg lipopolysaccharides (LPS) or a pyrogen-free saline solution (VEH). Mothers were sacrificed on postpartum day 22 and brains were collected. Brains were preserved and later prepared for immunohistochemical labelling of ER-α and Iba-1 positive cells in the layers of the hippocampus (CA1, CA3 and Dentate Gyrus (DG): GrDG, MoDG, and PoDG). This project found a statistically significant effect of LPS treatment on the number of ER-α positive cells in the CA3 and in the PoDG layers of the hippocampus; LPS served to reduce the overall number of estrogen receptors in these areas. These findings support the potential for immune challenges to disrupt the adaptations made to maternal neuroendocrine pathways that prepare for post-pregnancy offspring care. Gestational Immune Activation Infection Pregnancy Estrogen Receptors Iodized calcium-binding protein Hippocampus
73	Developmental Expression of Calcium-Binding Proteins in the AVCN and MNTB of Normal Hearing and Congenitally Deaf Mice Roebel, John L. 20 June 2006 (has links) No description available. Calcium-binding proteins deafness auditory Calretinin Calbindin D-28k Parvalbumin AVCN MNTB
74	Testing and implementation of a titration technique for use in the determination of Ca<sup>2+</sup> binding constants Rotterman, Erik M. 04 May 2011 (has links) No description available. Biophysics Chemistry calcium binding EGTA calmodulin pressure dialysis titration indo-1
75	Functional dissection of ERD14 phosphorylation-dependent calcium binding activity Chacha, Allen R. 11 December 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Drought and cold conditions are among the major factors affecting plant growth and crop production globally. Dehydrins are group II late embryogenesis abundant (LEA) proteins characterized by a conserved K-region (EKKGIMDKIKEKLPG consensus sequence) that accumulate in many plants during drought, low temperature, and high salinity to confer stress tolerance. While it has been demonstrated that overexpression of dehydrins improves cold tolerance in various crop plants, the mechanism leading to cold tolerance is still unclear. Previous studies reported phosphorylation of AtERD14 dehydrin by casein kinase II (CKII) led to an increase in calcium binding activity. Mass spectroscopy analysis determined that the phosphorylation was localized to a poly-serine (S) region. To further characterize the S-region, GST fused ERD14 mutants were created via site-directed mutagenesis and deletion of either the amino or carboxyl ends of ERD14 via the QuickChange® Multi Site-Directed Mutagenesis Kit. Phosphorylation of purified mutant proteins by CKII was analyzed via gel shift and direct phosphorylation assays. The effect of phosphorylation on calcium binding activity was also analyzed. Results showed the serine (S) residue at position 83 was crucial to phosphorylation-dependent molecular mass shift and Ca2+-binding activities followed by the serine residue at position 85 in importance. Mutation of serines at positions 83, 84, and 85 completely eliminated the phosphorylation-dependent gel shift and calcium binding. Examination of truncation mutants determined the N-terminal was an important region for protein structure modification and phosphorylation ability leading to Ca2+ activation. Calcium binding activity of the truncated mutants indicated the calcium binding site was localized in the region between the S-region and the K-region near the C-terminal end. To characterize the acidic dehydrins contribution to cold tolerance in vivo, three single (erd10, erd14, cor47) knockouts (KOs) were characterized. Single KOs produced no cold sensitive phenotype indicating the need for multiple dehydrin KOs in Arabidopsis in order to potentially produce a cold sensitive phenotype. Dehydrin Calcium binding ERD14 Cold stress Phosphorylation Arabidopsis Plants -- Effect of drought on Cold -- Physiological effect Plants -- Effect of cold on Growth (Plants) Plants -- Phosphorylation Calcium-binding proteins Plant growth inhibiting substances Droughts
76	A ligação de cálcio à troponina C analisada por diálise de fluxo e por espectroscopia de fluorescência / The binding of calcium to troponin C analyzed by flow dialysis, and fluorescence spectroscopy Valencia, Fernando Fortes de 22 October 2001 (has links) A troponina C é o componente do complexo heterotrimérico troponina ao qual o Ca2+ se associa. Essa associação torna a contração muscular um processo regulado por Ca2+. Pearlstone et al. (Biochemistry 31, 6545, (1992)) utilizaram o cDNA da troponina C de músculo esquelético de galinha (sTnC) para construir um mutante onde a fenilalanina da posição 29 foi substituída por triptofano (mutante F29W). Esse mutante permitiu que a ligação de Ca2+ aos sítios regulatórios amino terminais fosse acompanhada através de técnicas fluorescentes. Entretanto, algumas propriedades da sTnC foram alteradas pela mutação (Li et al. (1995) Biochemistry 34, 8330). No presente estudo, ensaios de ligação direta de Ca2+ bem como titulações de Ca2+ seguidas por fluorescência foram usadas para melhor se entenderem os efeitos da mutação Phe→Trp na posição 29 bem como a influência de certos aminoácidos componentes do sítio de ligação de Ca2+ nas propriedades do domínio regulatório. Dois novos mutantes foram construídos nos quais os análogos do triptofano 5-hidroxitriptofano ou 7 -azatriptofano foram introduzidos na posição 29 (resultando nos mutantes F29HW e F29ZW, respectivamente). Os dados mostraram que, quando comparada com a sTnC, a afinidade por Ca2+ dos sítios amino terminais foi elevada na F29W em aproximadamente seis vezes, três vezes na F29ZW e levemente diminuída na F29HW . A curva de fluorescência associada à ligação de Ca2+ à F29ZW mostrou-se bimodal, com cada fase podendo ser relacionada à ligação de Ca2+ a cada um dos sítios regulatórios. Esta é a primeira descrição através de técnicas de fluorescência da ligação sequencial de Ca2+ aos sítios amino terminais. Para investigar a influência de cada um dos sítios amino terminais nas propriedades de ligação ao Ca2+ ou propriedades fluorescentes da sTnC, F29W, F29HW e F29ZW , construímos mutantes duplos e triplos através da substituição do aspartato da posição 30 ou 66 (ou ambos) por alanina. Essas mutações afetam respectivamente a capacidade de ligação ao Ca2+ dos sítios I e II. Os dados mostraram que: 1) nas concentrações de Ca2+ analisadas, a mutação Asp→Ala na posição 30 impede somente a ligação de Ca2+ ao sítio I, enquanto a mutação Asp → Ala na posição 66 impede a ligação de Ca2+ aos sítios I e II, e 2) a mutação Asp → Ala na posição 30 torna silenciosa a substituição da fenilalanina da posição 29 por Trp, 5-hidroxitriptofano ou 7-azatriptofano. Concluímos que o sítio I é essencialmente inativo sem a ligação prévia de Ca2+ ao sítio II e que a posição 29 influencia a afinidade ao Ca2+ do sítio I \"ajustado\". / Troponin C is the Ca2+ binding component of heterotrimeric troponin. It makes skeletal muscle contraction a Ca2+ regulated process. We have previously used the cDNA of chicken skeletal TnC (sTnC) to construct a mutant where phenylalanine at position 29 was replaced by tryptophan (F29W mutant) [Pearlstone et al. (1992) Biochemistry 31, 6545]. This mutant allowed calcium binding to the regulatory amino terminal sites to be followed through fluorescence techniques, but altered some properties of sTnC [Li et al. (1995) Biochemistry 34, 8330]. In the present study, direct calcium binding assays and fluorescence followed calcium titrations were used to better understand the effects of the Phe→Trp mutation at position 29 as well as the influence of each amino site on the calcium binding properties of the regulatory domain. Two new mutants were constructed in which the tryptophan analogs 5-hydroxytryptophan or 7-azatryptophan were introduced at position 29 (resulting in F29HW and F29ZW mutants, respectively). The data showed that when compared to sTnC, the Ca2+ affinity of amino sites was increased sixfold in F29W, nearly threefold in F29ZW and slightly decreased in F29HW. The F29ZW fluorescence followed Ca2+ titration displayed a bimodal curve that could be related to Ca2+ binding to each of the amino sites. This is the first report of fluorescence detection of the sequential Ca2+ binding to the regulatory sites. To investigate the influence of each amino site in the calcium binding or fluorescence properties of sTnC, F29W, F29HW and F29ZW, we have constructed double and triple mutants by replacing aspartate at position 30 or 66 (or both) by alanine. These mutations affect respectively the binding capacity of sites I and II. The data showed that: 1) in the calcium concentration range analyzed, the Asp→Ala mutation at position 30 impairs calcium binding to site I on1y, while Asp→Ala mutation at position 66 impairs calcium binding to both sites I and II, and 2) the Asp→Ala mutation at position 30 makes silent the replacement of Phe at position 29 by Trp, 5-hydroxytryptophan or 7-azatryptophan. We conclude that site I is essentially defunct without previous binding to site II and that position 29 influences the affinity of this adjusted site I. Biofísica Fluorescence Fluorescence Protein (Structure) Biophysics Proteínas (Estrutura) Troponin Troponin
77	Identification of substrates and pathways regulated by WNK1 Lee, Byung-Hoon. January 2004 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 149-163
78	Dissection of protein-protein interactions that regulate dendritic growth and synaptic transmission / Pradhan, Anuradha January 2005 (has links) (PDF) Thesis (Ph. D.)--University of Oklahoma. / Bibliography: leaves 117-135.
79	Mechanism of synaptotagmin action in neurotransmitter release Arac-Ozkan, Demet. January 2005 (has links) (PDF) Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Not embargoed. Vita. Bibliography: 229-249.
80	A ligação de cálcio à troponina C analisada por diálise de fluxo e por espectroscopia de fluorescência / The binding of calcium to troponin C analyzed by flow dialysis, and fluorescence spectroscopy Fernando Fortes de Valencia 22 October 2001 (has links) A troponina C é o componente do complexo heterotrimérico troponina ao qual o Ca2+ se associa. Essa associação torna a contração muscular um processo regulado por Ca2+. Pearlstone et al. (Biochemistry 31, 6545, (1992)) utilizaram o cDNA da troponina C de músculo esquelético de galinha (sTnC) para construir um mutante onde a fenilalanina da posição 29 foi substituída por triptofano (mutante F29W). Esse mutante permitiu que a ligação de Ca2+ aos sítios regulatórios amino terminais fosse acompanhada através de técnicas fluorescentes. Entretanto, algumas propriedades da sTnC foram alteradas pela mutação (Li et al. (1995) Biochemistry 34, 8330). No presente estudo, ensaios de ligação direta de Ca2+ bem como titulações de Ca2+ seguidas por fluorescência foram usadas para melhor se entenderem os efeitos da mutação Phe→Trp na posição 29 bem como a influência de certos aminoácidos componentes do sítio de ligação de Ca2+ nas propriedades do domínio regulatório. Dois novos mutantes foram construídos nos quais os análogos do triptofano 5-hidroxitriptofano ou 7 -azatriptofano foram introduzidos na posição 29 (resultando nos mutantes F29HW e F29ZW, respectivamente). Os dados mostraram que, quando comparada com a sTnC, a afinidade por Ca2+ dos sítios amino terminais foi elevada na F29W em aproximadamente seis vezes, três vezes na F29ZW e levemente diminuída na F29HW . A curva de fluorescência associada à ligação de Ca2+ à F29ZW mostrou-se bimodal, com cada fase podendo ser relacionada à ligação de Ca2+ a cada um dos sítios regulatórios. Esta é a primeira descrição através de técnicas de fluorescência da ligação sequencial de Ca2+ aos sítios amino terminais. Para investigar a influência de cada um dos sítios amino terminais nas propriedades de ligação ao Ca2+ ou propriedades fluorescentes da sTnC, F29W, F29HW e F29ZW , construímos mutantes duplos e triplos através da substituição do aspartato da posição 30 ou 66 (ou ambos) por alanina. Essas mutações afetam respectivamente a capacidade de ligação ao Ca2+ dos sítios I e II. Os dados mostraram que: 1) nas concentrações de Ca2+ analisadas, a mutação Asp→Ala na posição 30 impede somente a ligação de Ca2+ ao sítio I, enquanto a mutação Asp → Ala na posição 66 impede a ligação de Ca2+ aos sítios I e II, e 2) a mutação Asp → Ala na posição 30 torna silenciosa a substituição da fenilalanina da posição 29 por Trp, 5-hidroxitriptofano ou 7-azatriptofano. Concluímos que o sítio I é essencialmente inativo sem a ligação prévia de Ca2+ ao sítio II e que a posição 29 influencia a afinidade ao Ca2+ do sítio I \"ajustado\". / Troponin C is the Ca2+ binding component of heterotrimeric troponin. It makes skeletal muscle contraction a Ca2+ regulated process. We have previously used the cDNA of chicken skeletal TnC (sTnC) to construct a mutant where phenylalanine at position 29 was replaced by tryptophan (F29W mutant) [Pearlstone et al. (1992) Biochemistry 31, 6545]. This mutant allowed calcium binding to the regulatory amino terminal sites to be followed through fluorescence techniques, but altered some properties of sTnC [Li et al. (1995) Biochemistry 34, 8330]. In the present study, direct calcium binding assays and fluorescence followed calcium titrations were used to better understand the effects of the Phe→Trp mutation at position 29 as well as the influence of each amino site on the calcium binding properties of the regulatory domain. Two new mutants were constructed in which the tryptophan analogs 5-hydroxytryptophan or 7-azatryptophan were introduced at position 29 (resulting in F29HW and F29ZW mutants, respectively). The data showed that when compared to sTnC, the Ca2+ affinity of amino sites was increased sixfold in F29W, nearly threefold in F29ZW and slightly decreased in F29HW. The F29ZW fluorescence followed Ca2+ titration displayed a bimodal curve that could be related to Ca2+ binding to each of the amino sites. This is the first report of fluorescence detection of the sequential Ca2+ binding to the regulatory sites. To investigate the influence of each amino site in the calcium binding or fluorescence properties of sTnC, F29W, F29HW and F29ZW, we have constructed double and triple mutants by replacing aspartate at position 30 or 66 (or both) by alanine. These mutations affect respectively the binding capacity of sites I and II. The data showed that: 1) in the calcium concentration range analyzed, the Asp→Ala mutation at position 30 impairs calcium binding to site I on1y, while Asp→Ala mutation at position 66 impairs calcium binding to both sites I and II, and 2) the Asp→Ala mutation at position 30 makes silent the replacement of Phe at position 29 by Trp, 5-hydroxytryptophan or 7-azatryptophan. We conclude that site I is essentially defunct without previous binding to site II and that position 29 influences the affinity of this adjusted site I. Biofísica Fluorescence Proteínas (Estrutura) Troponin Fluorescence Protein (Structure) Biophysics Troponin

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