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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.
41

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly January 2009 (has links)
The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009
42

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly January 2009 (has links)
The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009
43

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly January 2009 (has links)
The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009
44

Identificação de receptores moleculares para ligantes detectados pelo Órgão Vomeronasal / Identification of molecular receptors for ligands detected by the Vomeronasal Organ

Cardozo, Leonardo Minete, 1988- 20 August 2018 (has links)
Orientador: Fabio Papes / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T21:10:44Z (GMT). No. of bitstreams: 1 Cardozo_LeonardoMinete_M.pdf: 30220846 bytes, checksum: 6793ed2dd7e959cbc81a5c912cd1c987 (MD5) Previous issue date: 2012 / Resumo: Uma propriedade fundamental do sistema nervoso em todas as espécies animais e a transformação dos estímulos sensoriais em atividade neural, levando a mudanças comportamentais e endócrinas. Dentre os sistemas sensoriais, o Sistema Olfatório destaca-se por sua complexidade molecular, capacidade de detecção de odores e modulação de comportamentos inatos. Entretanto, ainda muito pouco e conhecido sobre como este Sistema detecta, processa e interpreta as informações químicas que recebe do meio externo... Observação: O resumo, na íntegra, poderá ser visualizado no texto completo da tese digital / Abstract: A fundamental property of the nervous system in all animal species is the transformation of sensory stimulation into neural activity, leading to endocrine and behavioral changes. Among the sensory systems, the olfactory system stands out due to its molecular complexity, detection capacity and the modulation of innate behaviors. However, little is known about how this system detects, processes and interprets chemosignals from the environment... Note: The complete abstract is available with the full electronic document / Mestrado / Genetica Animal e Evolução / Mestre em Genética e Biologia Molecular
45

Lipid-GPCR interactions: from activation of sphingosine-1-phosphate receptors to modulation of vasopressin V2 receptor function / Interactions lipides-GPCRs: de l’activation des récepteurs au sphingosine-1-phosphate à la modulation de la fonction du récepteur V2 à la vasopressine

Troupiotis-Tsaïlaki, Anastassia 04 September 2015 (has links)
GPCRs form the largest family of membrane proteins in human genome and mediate signal transmission in a wide panel of essential physiological processes, and they are thus a major source of pharmaceutical targets. Investigating GPCR interactions with their cognate ligands and their membrane environment is crucial to understand their function at a molecular level. While major breakthroughs in the determination of high resolution structures of GPCRs in inactive and active states have shed a new light on the structural basis of GPCR activation process, complementary approaches are needed to investigate its dynamic aspects in the context of a native lipid environment. Our research work falls within this scope and hinges on two main issues: on the one hand, understand which structural features of the agonist underlie the activation of S1P receptors; on the other hand determine if membrane lipids modulate the structure and the function of the vasopressin V2 receptor (V2R). First, we investigated the functional response of S1P1, S1P2, S1P4 and S1P5 receptors expressed in mammalian cells to a series of synthetic derivatives of the native ligand sphingosine-1-phosphate, of variable alkyl chain length. Our data demonstrated that the hydrophobic tail of the ligand is crucial to induce activation in S1P receptors family, and revealed subtype-specificities regarding the influence of the alkyl chain length. Our experimental results combined with molecular dynamics simulation lead us to propose an activation mechanism for S1P receptors family. In the second part of our work, we reconstituted purified V2R into systems of controlled lipid composition, mimicking the membrane bilayer. Structural and functional characterization of the receptor in different lipid environments, using infrared and fluorescence spectroscopy approaches, revealed that the lipid composition affects V2R conformation and its interaction with a specific ligand. Taken together, our research work contributes to a better understanding of GPCRs activation mechanism and its regulation by lipid environment. / Les récepteurs couplés aux protéines G (GPCRs) forment la plus grande famille de protéines membranaires du génome humain et contribuent à une kyrielle de processus physiologiques essentiels, qui leur confèrent un intérêt pharmacologique majeur. Étudier l'interaction de ces protéines avec leurs ligands et leur environnement membranaire est primordial pour appréhender leur fonctionnement à l’échelle moléculaire. Bien que de remarquables avancées dans la détermination de structures à haute résolution de GPCRs à l'état inactif et actif aient permis de comprendre certaines bases structurales du fonctionnement des récepteurs, des approches complémentaires donnant un aperçu des aspects dynamiques et dans un environnement natif sont nécessaires pour cerner pleinement leur mécanisme d'activation. Notre travail de thèse s'inscrit dans cette problématique et s'articule autour de deux sujets: d'une part, comprendre quelles caractéristiques structurales du ligand sous-tendent l'activation de la famille des récepteurs au sphingosine-1-phosphate (S1P); d'autre part, déterminer si les lipides de la membrane plasmique modulent la structure et la fonction du récepteur à la vasopressine V2. Pour répondre à notre première question, nous avons étudié la réponse fonctionnelle en système cellulaire des récepteurs S1P1, S1P2, S1P4 et S1P5 à des composés synthétiques dérivés du S1P, portant des chaînes alkyles de longueur variable. Nos données mettent en évidence que la longueur de la chaîne hydrocarbonée du ligand est un paramètre crucial dans sa capacité d'induire l'activation du récepteur et ce pour l'ensemble des sous-types étudiés. De plus, nos résultats suggèrent que le comportement vis-à-vis de la longueur de chaîne dépend du sous-type de récepteur considéré. Nos résultats expérimentaux, combinés à une approche de modélisation dynamique, ont abouti à proposer un mécanisme d'activation pour la famille des récepteurs au S1P. Dans le second volet de notre travail, nous avons reconstitué le récepteur V2 purifié dans des systèmes de composition lipidique contrôlée, mimant la bicouche membranaire. Nous avons procédé à la caractérisation structurale et fonctionnelle du récepteur inséré dans différentes types de lipides, par des méthodes spectroscopiques infrarouge et de fluorescence. Les données obtenues suggèrent que la composition lipidique affecte la conformation et la fonction du récepteur. L'ensemble de nos travaux contribue ainsi à une meilleure compréhension du mécanisme d'activation des GPCRs et de leur régulation par l'environnement lipidique. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
46

Mechanismus ovlivnění signalizace kanabinoidního receptoru 1 interagujícími proteiny / Role of proteins associated with the Cannabinoid receptor 1 in endocannabinoid signaling

Vozárová, Denisa January 2017 (has links)
To preserve homeostasis and proper function in every living organism, it is important for cells to communicate with each other and their environment. Cells are constantly processing a huge amount of extracellular stimuli through proteins called receptors. Receptors can transduce the signal from extracellular to intracellular compartments. G- protein coupled receptors are the biggest group, in which also belongs Cannabinoid receptor type 1 (CB1R). Endocannabinoid system regulates many biological processes such as learning, food intake, and movement. Obesity is a serious issue nowadays and in cases of claryfing its molecular-genetic basis, there was found Src homology 3-domain growth factor receptor-bound 2-like (endophilin) interacting protein 1 (SGIP1). SGIP1 has a role in the regulation of energetic balance and its overexpression is leading to a development of obesity. SGIP1 was detected as an interaction partner of CB1R and it had been found that it is involved in internalization via clathrin-mediated endocytosis (CME). Key proteins for initiation and early phase of CME are FCHO1/2, with which SGIP1 shares high sequential homology. However, effect of SGIP1 on internalization of activated CB1R is inhibitory unlike FCHO1/2,wheras detailed mechanism of its function remains unclear. The aim of this...
47

Mechanismus ovlivnění signalizace kanabinoidního receptoru 1 interagujícími proteiny / Role of proteins associated with the cannabinoid receptor 1 in endocannabinoid signaling

Vozárová, Denisa January 2017 (has links)
To preserve homeostasis and proper function in every living organism, it is important for cells to communicate with each other and their environment. Cells are constantly processing a huge amount of extracellular stimuli through proteins called receptors. Receptors can transduce the signal from extracellular to intracellular compartments. G-protein coupled receptors are the biggest group, in which also belongs Cannabinoid receptor type 1 (CB1R). Endocannabinoid system regulates many biological processes such as learning, food intake, and movement. Obesity is a serious issue nowadays and in cases of searching for candidate molecules, there was found Src homology 3-domain growth factor receptor-bound 2-like (endophilin) interacting protein 1 (SGIP1). SGIP1 has a role in the regulation of energetic balance and its overexpression is leading to a development of obesity. SGIP1 was detected as an interaction partner of CB1R and it had been found that it is involved in internalization via clathrin-mediated endocytosis. SGIP1 is very homological with FCHO1/2 - important proteins which participate on early stages of endocytosis. Mechanism of inhibitory effect of SGIP1 on internalization remains unclear. The aim of this study is to clarify the role of distinct domains of SGIP1 in context of endocytosis. Key...
48

Computational Methods for the structural and dynamical understanding of GPCR-RAMP interactions

Bahena, Silvia January 2020 (has links)
Protein-protein interaction dominates all major biology processes in living cells. Recent studies suggestthat the surface expression and activity of G protein-coupled receptors (GPCRs), which are the largestfamily of receptors in human cells, can be modulated by receptor activity–modifying proteins (RAMPs). Computational tools are essential to complement experimental approaches for the understanding ofmolecular activity of living cells and molecular dynamics simulations are well suited to providemolecular details of proteins function and structure. The classical atom-level molecular modeling ofbiological systems is limited to small systems and short time scales. Therefore, its application iscomplicated for systems such as protein-protein interaction in cell-surface membrane. For this reason, coarse-grained (CG) models have become widely used and they represent an importantstep in the study of large biomolecular systems. CG models are computationally more effective becausethey simplify the complexity of the protein structure allowing simulations to have longer timescales. The aim of this degree project was to determine if the applications of coarse-grained molecularsimulations were suitable for the understanding of the dynamics and structural basis of the GPCRRAMP interactions in a membrane environment. Results indicate that the study of protein-proteininteractions using CG needs further improvement with a more accurate parameterization that will allowthe study of complex systems.
49

Studies on the novel bioactive peptide screening systems for G-protein coupled receptors and neuraminidase / Gタンパク質共役受容体およびノイラミニダーゼを標的とした生理活性ペプチドの新規機能的探索法に関する研究

Shigemori, Tomohiro 23 March 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第19048号 / 農博第2126号 / 新制||農||1032(附属図書館) / 学位論文||H27||N4930(農学部図書室) / 31999 / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 植田 充美, 教授 植田 和光, 教授 小川 順 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
50

Characterization of Neuronal Primary Cilia in Cellular Homeostasis and Disease

Green, Jill A. 18 December 2012 (has links)
No description available.

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