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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.
1

Developmental challenge and GABAergic neuronal abnormalities : their relevance to schizophrenia

Baker, Christian January 2002 (has links)
No description available.
2

Rational Design of Calcium Biosensors

Ellis, April L 04 August 2008 (has links)
Understanding the temporal and spatial changes in calcium concentration has been a difficult endeavor for many years due to the relatively small changes in calcium concentration during messenging events, the rapid changes upon physiological messenging, and the unavailability of fast, efficient, and sensitive sensors to detect calcium changes. In addition, the key factors in calcium binding have yet to be determined due to the metal-metal interactions, cooperativity, and conformational change involved in calcium binding to natural calcium-binding proteins. To overcome these obstacles and to engineer calcium sensors for in vivo studies of calcium signaling events, calcium binding sites have been engineered into Green Fluorescent Protein. The engineered binding sites demonstrate terbium binding affinity from 2-30 ƒÝM and calcium binding affinity from 50-100 ƒÝM. Site 177 demonstrates green fluorescence when expressed in mammalian cells and produces a response to calcium concentration changes when expressed in the cytosol. Addition of the cycle 3 mutations (M153T, V163A, F99S) to Site 177 allowed for increased brightness in the emission of the chromophore but still exhibited calcium response. The second generation Site 1 demonstrates fluorescence response to calcium concentration changes when expressed both in the cytosol and in the endoplasmic reticulum. Addition of M153T and V163A to Site 1 allowed for expression of fluorescent protein at 37 ¢XC in HeLa cells and at 30 ¢XC in bacteria. Site 1-M153T/V163A exhibits chromophore fluorescence response to calcium with a Kd of 100 ƒÝM and competition with Rhodamine-5N produced a calcium Kd of 107 ƒÝM. This designed sensor, Site 1-M153T/V163A is the first demonstration of a designed calcium binding GFP with calcium response measured both in vivo and in vitro.
3

Calmodulin from the eucestoda Hymenolepis diminuta : an investigative study

Eastlake, Jane Louise January 1994 (has links)
No description available.
4

Dissecting Key Determinants for Calcium and Calmodulin Regulation of GAP Junction and Viral Protein

Chen, Yanyi 07 May 2012 (has links)
Calcium and calmodulin are implicated in mediating the Ca2+-dependent regulation of gap junctions that are essential for the intercellular transmission of molecules such as nutrients, metabolites, metal ions and signal messengers (< 1000 Da) through its specialized cell membrane channels and communication to extracellular environment. To understand the key determinants for calcium and calmodulin regulation of gap junction, in this study, we identified a calmodulin binding domain in the second half of the intracellular loop of Cxonnexin50 (the major gap junction protein found in an eye lens) using peptide fragments that encompass predicted CaM binding sites and various biophysical methods. Our study provides the first direct evidence that CaM binds to a specific region of the ubiquitous gap junction protein Cx50 in a Ca2+-dependent manner. Furthermore, two novel CaM binding regions in cytosolic loop and C-termini of Connexin43 (the most ubiquitous connexin) have been shown to interact with CaM with different binding modes in the presence of Ca2+ using high resolution NMR. Our results also elucidate the molecular determinants of regulation of gap junction by multiple CaM targeting regions and provide insight into the molecular basis of gap junction gating mechanism and the binding of CaM to the cytoslic region Cx43-3p as the major regulation site. Upon response to the cytosolic calcium increase, CaM binds to the cytosolic loop to result in the conformational change of gap junction and close the channel. It is possible for CaM to use an adjacent region as an anchor close to the regulation site to allow for fast response. Since a large number of residues in the Cxs mutated in human diseases reside at the highly identified CaM binding sites in Cxs, our studies provide insights into define the critical cellular changes and molecular mechanisms contributing to human disease pathogenesis as part of an integrated molecular model for the calcium regulation of GJs. In addition, we have applied the grafting approach to probe the metal binding capability of predicted EF-hand motifs within the streptococcal hemoprotein receptor (Shr) of Streptococcus pyrogenes as well as the nonstructural protein 1 (nsP1) of Sindbis virus and Poxvirus. This fast and robust method allows us to analyze putative EF-hand proteins at genome-wide scale and to further visualize the evolutionary scenario of the EF-hand protein family. Further, mass spectrometry has also been applied to probe modification of proteins such as CaM labeling by florescence dye and 7E15 by PEG.
5

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.
6

Etude du rôle des chélateurs calciques sur les oscillations du potentiel membranaire neuronal : approche expérimentale et théorique

Roussel, Céline 03 May 2006 (has links)
Les neurones sont des cellules excitables capables de coder et transmettre l’information sous forme d’oscillations du potentiel membranaire. Cette activité électrique est produite par une modification des flux ioniques transmembranaires. Les neurones constituent un exemple d’oscillateur cellulaire dont la dynamique non linéaire permet l’apparition d’une activité électrique complexe. Dans ce système, les ions calciques sont des messagers intracellulaires importants. Ils servent de médiateur entre un signal électrique et un signal chimique, par une modulation de l’activité enzymatique de certaines protéines. Ils interviennent dans de nombreuses fonctions neuronales, dont l’excitabilité électrique. Un des mécanismes mis en place par les neurones pour contrôler l’homéostasie du calcium intracellulaire provient de protéines cytoplasmiques capables de lier les ions calciques. Ces protéines jouent un rôle de « tampon » du calcium. Cependant, toutes leurs fonctions n’ont pas encore été mises en évidence. C’est l’objectif de notre travail. Nous avons voulu comprendre le rôle joué par une protéine « tampon » particulière, la calrétinine, sur le mode de décharge électrique d’un neurone où elle est exprimée en abondance, le grain cérébelleux. Pour cela, nous avons utilisé une approche théorique et expérimentale. Au niveau théorique, nous avons élaboré un modèle mathématique de l’activité électrique du grain cérébelleux, prenant en compte la chélation du calcium intracellulaire. Il permet de clarifier le rôle de la chélation du calcium intracellulaire sur les oscillations du potentiel membranaire. La modélisation de l’activité électrique du grain cérébelleux repose sur le formalisme développé par Hodgkin et Huxley pour l’axone géant de calmar. Dans ce contexte, l’application de la conservation de la charge au circuit équivalent de la membrane cellulaire fournit un système d’équations différentielles ordinaires, non linéaires. Dès lors, notre modèle nous a permis d’étudier l’impact des variations de la concentration de chélateur calcique sur les oscillations du potentiel membranaire. Nous avons ainsi pu constater qu’une diminution de la concentration en chélateur calcique induisait une augmentation de l’excitabilité électrique du grain cérébelleux, sans altérer le régime d’oscillations. Par contre, en augmentant fortement la concentration en chélateur calcique, nous avons montré que le grain cérébelleux changeait de dynamique oscillatoire, montrant des transitions d’un mode de décharge périodique régulier vers des oscillations en salve du potentiel membranaire. Au niveau expérimental, nous avons vérifié les résultats prévus par le modèle théorique. Nous avons ainsi montré que des grains de souris transgéniques déficientes en calrétinine présentaient une excitabilité électrique accrue par rapport aux grains contrôles. Puis, en restaurant un niveau de chélation calcique normal dans ces grains, par perfusion intracellulaire de chélateur calcique, nous montrons qu’ils retrouvent un niveau d’excitabilité normal. Ensuite, nous avons introduit dans des grains cérébelleux de souris sauvages, une forte concentration en chélateur calcique exogène. Conformément aux résultats théoriques, nous avons pu observer des transitions vers des oscillations en salve du potentiel membranaire. Enfin, nous avons montré que l’absence de calrétinine affecte les paramètres morphologiques du grain cérébelleux des souris transgéniques déficientes en calrétinine. En conclusion, ces résultats suggèrent que le mode de décharge des cellules excitables peut être modulé d’une façon importante par les protéines liant le calcium. De ce fait, des changements dans le niveau d’expression et/ou dans la localisation subcellulaire des protéines liant le calcium pourraient aussi jouer un rôle critique dans la régulation de processus physiologiques contrôlés par l’excitabilité membranaire. De plus, les mécanismes que nous avons mis en évidence pourraient être à l’origine d’un nouveau principe de régulation de la signalisation dans les circuits neuronaux et pourraient jouer un rôle fonctionnel dans le contrôle du codage de l’information et de son stockage dans le système nerveux central.
7

The role of Calcium Binding Protein 2 in synaptic sound encoding and hearing

Picher, Maria Magdalena 02 December 2015 (has links)
No description available.
8

Analyses and Applications of Metalloprotein Complexes

Kirberger, Michael Patrick 04 August 2008 (has links)
The structural characteristics associated with the binding of beneficial metals (i.e. - Mg2+, Zn2+ and Ca2+) to natural proteins has typically received more attention than competitive binding by toxic metals (e.g. – Pb2+, Hg2+, Cd2+, La3+, etc.). In this thesis, a statistical analysis of Pb2+-binding in crystallized protein structures indicates that Pb2+ does not bind preferentially with nitrogen, as generally assumed, but binds predominantly with oxygen, and to a lesser degree, sulfur. A comparison of Ca2+ and Pb2+ indicates that Pb2+ binds with a wider range of coordination numbers, with less formal change, and with less defined structure than Ca2+. The Pb2+ ion also appears to displace Ca2+ with little conformational stress in calcium binding proteins (CaBP’s). Experimental data from the binding of metals with engineered fluorescent proteins indicate that both Pb2+ and Gd3+ will occupy grafted calcium-binding sites with greater affinity than Ca2+, and strong evidence is presented to support the hypothesis that Pb2+ and Gd3+ will bind non-specifically on the protein surface. These results suggest that toxicity is associated with two binding mechanisms: displacement of the metal cofactor which disrupts protein function, and non-specific binding which maintains higher solubility of the metal.
9

The effect of weight loss on circulating biomarkers of brain health and executive function

Herra, Lindsay Marie 04 June 2020 (has links)
Obesity is associated with deficits in cognitive function, particularly within the domain of executive function (EF). EF refers to higher order cognitive processes that regulate our ability to sustain attention, inhibit subconscious tendencies, remember and manipulate information for immediate use, and remain cognitively flexible. Deficits in EF in overweight and obese individuals may impact the success of weight loss and maintenance efforts. Therefore, understanding the biological links between obesity and EF, as well as the ability to reverse EF deficits with weight loss, is imperative. The first study aimed to determine the effect of weight loss in overweight and obese, middle-aged and older adults on serum brain-derived neurotrophic fact (BDNF), S100 calcium binding protein B (S100B), and glial fibrillary acidic protein (GFAP). Serum samples (n=21; 50-75 years, BMI 25-40 kg/m2) were pooled from two prior weight loss studies. Fasting blood measurements were taken before and after 8- or 12-weeks of hypocaloric diet-induced weight loss (1200 or 1500 kcal/d). Body Mass Index (BMI), body weight, waist circumference, and percent body fat (All p<0.001) decreased with weight loss. Serum BDNF (p=0.871), S100B (p=0.898), and GFAP (p=0.506) did not change following weight loss. The second study aimed to determine the correlation between the magnitude of change in serum BDNF, S100B, and GFAP and the magnitude of improvement in EF performance on three computer-based tests. Participants (n=8; 50-75 years, BMI 25-40 kg/m2) completed 4-weeks of hypocaloric diet-induced weight loss (1200 or 1500 kcal/d), followed by 4-weeks of weight maintenance (hypocaloric diet + steps/d goal). Fasting blood and EF measurements were completed at baseline, and weeks 4 and 8. BMI (p=0.001), body weight (p=0.001), waist circumference (p=0.002), and percent body fat (p=0.001) decreased from baseline to week 8. Serum BDNF (p=0.359), S100B (p=0.277), and GFAP (p=0.585) did not change following weight loss. Go/No-Go (GNG) errors of commission (p=0.009) and AX-Continuous Performance Test (AX-CPT) correct response time (p=0.041) decreased following the weight loss. The change in serum GFAP was inversely correlated with GNG errors of omission (r=-0.716, p=0.046) and AX-CPT correct hits (r=-0.737, p=0.037), and positively correlated with AX-CPT correct response time (r=0.859, p=0.006). In conclusion, although weight loss does not influence serum BDNF, S100B, or GFAP levels, it may have a positive effect on inhibitory control in overweight and obese, middle-aged and older adults. Further research is needed to understand the relationship between serum BDNF, S100B, and GFAP and executive function. / Master of Science / Obesity is associated with lower brain function, particularly in executive function (EF). EF refers to advanced thought processes that help to maintain focus, practice self-control, solve problems, and easily switch between tasks. Lower EF in individuals with overweight and obesity may impact the success of weight loss and maintenance efforts. Because of this, understanding body processes that may link obesity and lower EF, as well as the ability to improve EF with weight loss, is very important. The first study aimed to determine the effect of weight loss on blood proteins responsible for brain health: brain-derived neurotrophic fact (BDNF), S100 calcium binding protein B (S100B), and glial fibrillary acidic protein (GFAP). Twenty-one blood samples from overweight and obese, middle-aged and older adults were combined from two completed weight loss studies. In these studies, blood was measured before and after 8- or 12-weeks of a weight loss (low calorie diet;1200 or 1500 Calories per day). Body Mass Index (BMI), body weight, waist circumference, and percent body fat all decreased with weight loss; however, levels of BDNF, S100B, and GFAP in the blood did not change. The second study aimed to determine the relationship between blood BDNF, S100B, and GFAP and performance on three computer-based tests of EF before and after weight loss. Eight overweight and obese, middle-aged and older adults completed 4-weeks of weight loss (low-calorie diet; 1200 or 1500 Calories per day), followed by 4-weeks of weight maintenance. BMI, body weight, waist circumference, and percent body fat all decreased following the weight loss and maintenance intervention (week 8). Blood BDNF, S100B, and GFAP levels did not change, but performance on two EF measures improved: participants made less errors of commission (doing something when not supposed to) and had faster reaction time following the intervention, indicating better self-control. Additionally, greater increases in GFAP were associated with less errors of omission (not doing something when supposed to), fewer correct responses, and slower reaction time. In conclusion, although weight loss did not affect blood BDNF, S100B, or GFAP levels, it may improve self-control in overweight and obese, middle-aged and older adults. Further research is needed to understand the relationship between weight loss, blood proteins of brain health, and EF.
10

Estudo da estabilidade estrutural de uma proteína recombinante ligante de zinco e cálcio - Calgranulina C (S100A12) porcina / Structural stability study of the zinc- and calcium- cinding recombinant protein Calgranulin C (S100A12) porcine

Garcia, Assuero Faria 14 February 2007 (has links)
S100A12 porcina é um membro da família das proteínas S100, um grupo de pequenas proteínas ligantes de cálcio caracterizado pela presença de dois motivos “EF-hand". Estas proteínas estão envolvidas em diversos eventos celulares, como a regulação da fosforilação protéica, atividade enzimática, tamponamento de Ca+2, processos inflamatórios e a polimerização de filamentos intermediários. Adicionalmente, algumas dessas proteínas podem ligar Zn+2, o qual pode afetar a ligação do íon Ca+2, particularmente para as proteínas S100. Neste trabalho, a seqüência gênica que codifica a proteína S100A12 porcina foi obtida por meio da construção de um gene sintético usando códons preferenciais para E.coli, permitindo a produção recombinante de grandes quantidades da proteína. Um estudo termodinâmico da estabilidade estrutural foi realizado, assim como a interação da proteína recombinante com íons divalentes usando técnicas de dicroísmo circular (CD) e fluorescência extrínseca. A desnaturação e renaturação induzidas por uréia ou temperatura indicam que se trata de um processo reversível e que a ligação dos íons Zn+2 e ou Ca+2 à rS100A12 aumenta sua estabilidade. A interação da sonda ANS com a proteína na presença de seus ligantes expõe superfícies hidrofóbicas podendo assim facilitar sua interação com macromoléculas alvo. Analisados em conjunto, os resultados obtidos indicam que S100A12 porcina é capaz de assumir diferentes conformações as quais podem estar correlacionadas com sua função fisiológica. / Porcine S100A12 is a member of S100 family, a small acidic calcium-binding proteins group characterized by the presence of two EF-hand motifs. These proteins are involved in many cellular events as the regulation of protein phosphorylation, enzymatic activity, Ca+2 homeostasis, inflammatory processes and intermediate filament polymerization. In addition, some of these proteins can bind Zn+2, which can affect the binding of Ca+2 particularly to S100 proteins. In this study, the gene sequence encoding S100A12 was obtained by the synthetic gene approach using E. coli codon bias allowing the recombinant production of large amounts of the protein. We report here a thermodynamic study on the structural stability of this recombinant protein and its interaction with divalent ions using circular dichroism and extrinsic fluorescence. The folding/unfolding induced by urea or temperature indicated a reversible process and the binding of Zn+2 or Zn+2 and Ca+2 to S100A12 increasing its stability. The interaction of the ANS probe with the protein in the ligant presence can lead to exposition of hydrofobic regions allowing its interaction with target macromolecules. Taken together, the results indicated that porcine S100A12 may assume different conformations that could be correlated to its physiological function.

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