Spelling suggestions: "subject:"7molecular chaperone."" "subject:"bimolecular chaperone.""
51 |
The role of phosducin-like protein and the cytosolic chaperonin CCT in G beta gamma dimer assembly /Hu, Ting, January 2005 (has links) (PDF)
Thesis (Ph. D.)--Brigham Young University. Dept. of Chemistry and Biochemistry, 2005. / Includes bibliographical references (p. 61-67).
|
52 |
Stress-inducible protein 1 : a bioinformatic analysis of the human, mouse and yeast STI1 gene structure /Aken, Bronwen Louise. January 2005 (has links)
Thesis (M. Sc. (Biochemistry, Microbiology and Biotechnology))--Rhodes University, 2005. / A research report submitted in partial fulfilment of the requirements for the degree of Master of Science (in Bioinformatics and Computational Molecular Biology).
|
53 |
Gene targeting and biochemical analysis of the endoplasmic reticulum chaperone GRP94 /Simen, Birgitte Binderup. January 2002 (has links)
Thesis (Ph. D.)--University of Chicago, Dept. of Neurobiology, Pharmacology and Physiology, December 2002. / Includes bibliographical references. Also available on the Internet.
|
54 |
Protecting the myocardium from ischemia and reperfusion injury via inducible activation of ATF6 or constitutive expression of MKK6 /Martindale, Joshua J. January 2006 (has links)
Thesis (Ph. D.)--University of California, San Diego and San Diego State University, 2006. / Vita. Includes bibliographical references (leaves 90-106).
|
55 |
Spectroscopic studies of the human copper chaperone for superoxide dismutase : probing the active cluster with selenocysteine variants /Barry, Amanda Nell. January 2007 (has links)
Thesis (Ph.D.) OGI School of Science & Engineering at OHSU, October 2007. / Includes bibliographical references (leaves 132-158).
|
56 |
Isolation and characterization of genes encoding heat shock protein 70s (hsp 70s) from two species of the coelacanth, Latimeria chalumnae and Latimeria menadoensis /Modisakeng, Keoagile William. January 2006 (has links)
Thesis (Ph.D. (Biochemistry)) - Rhodes University, 2007.
|
57 |
Estudos bioquímicos e biofísicos de proteínas de choque térmico da família Hsp40 de cana-de-açúcar e de levedura / Biochemical and biophysical studies of heat shock proteins of Hsp40 family from sugarcane and yeastSeraphim, Thiago Vargas 17 August 2018 (has links)
Orientador: Carlos Henrique Inacio Ramos / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-17T21:47:21Z (GMT). No. of bitstreams: 1
Seraphim_ThiagoVargas_M.pdf: 4293116 bytes, checksum: bd401fff62b6ce29029ac35de3bc753a (MD5)
Previous issue date: 2011 / Resumo: O enovelamento protéico é essencial para a correta função biológica das proteínas. A existência de um ambiente com alta concentração dos mais diferentes tipos de moléculas, dentro da célula, e de diversos tipos de situações de estresse, podem agir induzindo a formação de espécies improdutivas na via de enovelamento, como proteínas mal enoveladas e/ou até mesmo agregados protéicos. Para controlar estes eventos, há a maquinaria de chaperonas moleculares, que tem por objetivo garantir a homeostase protéica celular. As chaperonas moleculares são capazes de ligar e estabilizar um polipeptídio, mas sem contribuir com informações para a sua conformação final. Dentro desta maquinaria, o sistema Hsp70 tem um papel central, sendo responsável por receber proteínas desenoveladas ou mal enoveladas de outras chaperonas, podendo auxiliar no reenovelamento e direcionamento para outras chaperonas moleculares ou para degradação. A Hsp70 é regulada por co-chaperonas, como a Hsp40, que é responsável pela entrega de proteínas clientes à Hsp70 e pelo estímulo da atividade ATPase, essencial para a funcionalidade da Hsp70. Este trabalho apresenta a caracterização de uma Hsp40 tipo I de cana-de-açúcar, nomeada SHsp40, e o estudo de uma Hsp40 tipo II de levedura e seus mutantes, a fim de entender a relação estrutura-função destas proteínas. A SHsp40 foi expressa em E. coli, purificada e obtida enovelada, como verificado por dicroísmo circular. Além disso, a SHsp40 apresentou atividade chaperona em experimentos de proteção ao substrato desenovelado e se comportou como um dímero alongado em solução, como mostrado por SEC-MALS e pela determinação do fator de Perrin. Experimentos de desenovelamento térmico monitorado pelo sinal de CD a 222 nm revelaram que a SHsp40 possui pelo menos um intermediário, e a fluorescência de tioflavina T e bis-ANS mostraram que este intermediário é rico em folhas ? e parcialmente desenovelado, características de espécies na via de formação de fibrilas. A SHsp40 agregada foi examinada por microscopia eletrônica de varredura, que comprovou sua capacidade de formar de fibrilas. Este trabalho também contribuiu para o estudo de uma Hsp40 tipo II de levedura, Sis1, e seus mutantes de deleção, Sis1?124-174 e Sis1?121-257. Ensaios de fluorescência estática do triptofano, fotoapagamento e anisotropia mostraram que a deleção do domínio G/M não afetou a estrutura e hidrodinâmica de Sis1?124-174 em relação à proteína selvagem. Estudos de estabilidade destas proteínas, realizado anteriormente em nosso grupo de pesquisa e complementado neste trabalho pelo uso da técnica de SEC-MALS, mostrou que Sis1 e Sis1?124-174 foram mais estáveis que Sis1?121-257, mutante que o domínio G/M e subdomínio CTDI estão ausentes / Abstract: Correct protein folding is essential for proper protein biological function. There is a crowded environment and many types of molecules inside the cell and a variety of external stresses can act inducing unproductive species, as unfolded and/or misfolded proteins and even protein aggregates. To control these undesired events and ensures the protein homeostasis there is a molecular chaperone machinery. Molecular chaperones are able to bind and stabilize polypeptides but with no contributions for their final conformations. Inside this machinery, the Hsp70 system has a central role and is responsible to receive unfolded or misfolded proteins from other chaperones, helping in protein refolding and delivering the clients to other chaperones and even protein targeting for degradation. Hsp70 is regulated by its co-chaperones, such as Hsp40, which is responsible to client proteins deliver to Hsp70 and stimulation of its ATPase activity, essential processes for Hsp70 function. This work presents a sugarcane type I Hsp40 characterization, named SHsp40, and studies of an yeast type II Hsp40 and its mutants in order to understand the structure-function relationship of these proteins. The SHsp40 was expressed in E. coli, purified and obtained folded, as verified by circular dichroism. Furthermore, SHsp40 presented chaperone activity in unfolded substrate protection experiments and behaved as an elongated dimer in solution, as shown by SEC-MALS and estimated by Perrin factor. Thermal-induced unfolding experiments monitored by CD signal at 222 nm revealed that SHsp40 has at least one intermediate which is populated and tioflavin T and bis-ANS fluorescence showed that this intermediate is ? sheet-rich and partially folded, such as intermediate species in the fibril formation pathway. The aggregated SHsp40 was examined by scanning electron microscopy, wich proved its ability to fibril formation. This work also contributed for the study of an yeast type II Hsp40, Sis1, and its deletion mutants, Sis1?124-174 and Sis1?121-257. Steady-state tryptophan fluorescence, quenching and anisotropy assays showed that the G/M domain deletion did not affect the structure and hydrodynamic properties of Sis1?124-174 in relation to the wild type protein. Stability studies of these proteins, previously performed in our research group and complemented in this work by using the SEC-MALS technique, showed that Sis1 and Sis1?124-174 were more stable than Sis1?121-257, a mutant with the G/M domain and CTDI subdomain absents / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular
|
58 |
Characterisation of the plasmodium falciparum Hsp40 chaperones and their partnerships with Hsp70Botha, Melissa January 2009 (has links)
Central to this research, 40 kDa Heat shock proteins (Hsp40s) are known to partner (or cochaperone) 70 kDa Heat shock proteins (Hsp70s), facilitating the selection and transfer of protein substrate to Hsp70 and the stimulation of the protein folding ability of Hsp70. Members of the diverse Hsp70-Hsp40 protein complement of Plasmodium falciparum have been implicated in the cytoprotection of this malaria parasite, and are thought to facilitate the protein folding, assembly and translocation tasks required by the parasite to commandeer the infected human erythrocyte subsequent to invasion. In particular, the parasite has evolved an expanded and specialised 43- member suite of Hsp40 proteins, 19 of which bear an identifiable export motif for secretion into the infected erythrocyte cytoplasm where they potentially interact with human Hsp70. Although type I Hsp40 proteins are representative of typical regulators of Hsp70 activity, only two of these proteins are apparent in the parasite’s Hsp40 complement. These include a characteristic type I Hsp40 termed PfHsp40, and a larger, atypical type I Hsp40 termed Pfj1. Both Hsp40 proteins are predicted to be parasite-resident and are most likely to facilitate the co-chaperone regulation of the highly abundant and stress-inducible Hsp70 homolog, PfHsp70-I. In this work, the co-chaperone functionality of PfHsp40 and Pfj1 was elucidated using in vivo and in vitro assays. Purified recombinant PfHsp40 was shown to stimulate the ATPase activity of PfHsp70-I in in vitro single turnover and steady state ATPase assays, and co-operate with PfHsp70-I in in vitro aggregation suppression assays. In these in vitro assays, heterologous partnerships could be demonstrated between PfHsp70-I and the human Hsp40, Hsj1a, and human Hsp70 and PfHsp40, suggesting a common mode of Hsp70-Hsp40 interaction in the parasite and host organism. The functionality of the signature Hsp40 domain, the Jdomain, of Pfj1 was demonstrated by its ability to replace the equivalent domain of the A. tumefaciens Hsp40, Agt DnaJ, in interactions with the prokaryotic Hsp70, DnaK, in the thermosensitive dnaJ cbpA E. coli OD259 deletion strain. An H33Q mutation introduced into the invariant and crucial HPD tripeptide motif abrogated the functionality of the J-domain in the in vivo complementation system. These findings provide the first evidence for the conservation of the prototypical mode of J-domain based interaction of Hsp40 with Hsp70 in P. falciparum. Immunofluorescence staining revealed the localisation of PfHsp40 to the parasite cytoplasm, and Pfj1 to the parasite cytoplasm and nucleus in cultured intraerythrocytic stage P. falciparum parasites. PfHsp70-I was also shown to localise to the parasite cytoplasm and nucleus in these stages, consistent with the literature. Overall we propose that PfHsp40 and Pfj1 co-localise with and regulate the chaperone activity of PfHsp70-I in P. falciparum. This is the first study to identify and provide evidence for a functional Hsp70-Hsp40 partnership in P. falciparum, and provides a platform for future studies to elucidate the importance of these chaperone partnerships in the establishment and survival of the parasite in the intraerythrocytic-stages of development.
|
59 |
Isolation and characterization of genes encoding heat shock protein 70s (hsp 70s) from two species of the coelacanth, Latimeria chalumnae and Latimeria menadoensisModisakeng, Keoagile William January 2007 (has links)
The extant coelacanths have a close resemblance to the coelacanth fossil records dating back to 230mya. Like their predecessors, the extant coelacanths inhabit rocky caves at a depth of 100-300m below sea level. In the Comoros, the water temperature at these depths is estimated to fluctuate between 14-20°C. High-level adaptation to these environment and lack of competition are thought to have led to the morphological uniformity and slow change throughout the history of the coelacanths. Under stress conditions, proteins unfold or misfold leading to the formation of aggregates. Molecular chaperones facilitate the correct folding of other proteins so that they can attain a stable tertiary structure. In addition, molecular chaperones aid the refolding of denatured proteins and the degradation of terminally misfolded protein after cellular stress. Heat shock proteins form one of the major classes of molecular chaperones. Here we show that, despite high-level adaptation to a unique habitat and slow change, the genome of the coelacanth encodes the major and highly conserved molecular chaperone, Hsp70. Latimeria menadoensis and Latimeria chalumnae contain intronless hsp70 genes encoding Hsp70 proteins archetypal of known Hsp70s. Based on the coelacanth codon usage, we have shown that bacterial protein expression systems, particularly Escherichia coli, may not be appropriate for the overproduction of coelacanth Hsp70s and coelacanth proteins in general. Also interesting, was the discovery that like the rat Hsc70, the L. menadoensis Hsp70 could not reverse thermal sensitivity in a temperate sensitive E. coli DnaK mutant strain, BB2362. We also report the successful isolation of a 1.2 kb region of L. menadoensis hsp70 upstream regulatory region. This region contain three putative heat shock elements, a TATA- box and two CAAT-boxes. This regulatory region resembled the Xenopus, mouse, and particularly tilapia hsp70 promoters, all of which have been shown to drive the expression of reporter genes in a heat dependent manner. Taken together, this data is the first to strongly suggest an inducible Hsp70-base cytoprotection mechanism in the coelacanth. It further provides basis to formulate testable predictions about the regulation, structure and function of Hsp70s in the living fossil, Latimeria.
|
60 |
The role of Hsp90 in the Wnt pathway of MCF7 breast cancer cellsCooper, Leanne Claire January 2011 (has links)
Breast cancer is one of the most common forms of cancer in not only South African women, but women all over the world. The molecular chaperone heat shock protein 90 (HSP90) is upregulated in cancer and is almost exclusively associated with proteins involved in intracellular signal transduction, thus it plays an important role in signalling pathways within the cell. In cancer, there is an aberrant activation of the Wnt signaling pathway, which results in stabilized β-catenin being able to translocate to the nucleus where it can trigger the transcription of oncogenes found to be involved in the self-renewal of cells. The level of β-catenin is usually kept in check by a destruction complex comprising glycogen synthase kinase 3-beta (GSK-3β), axin1, adenomatous polyposis coli (APC) which phosphorylate β-catenin, resulting in its ubiquitination and degradation. HSP90 has been found to be associated with GSK-3β, but whether this association is only transient is debatable. Very little is known about the association of HSP90 with other members of the Wnt pathway in breast cancer. In this study, we have attempted to further identify the direct associations between HSP90 and GSK-3β, β-catenin, p-β-catenin and axin1. Immunofluorescence and confocal microscopy co-localization studies suggested a potential association between HSP90 and these proteins. Treatment with HSP90 inhibitors, 17-AAG and novobiocin resulted in a shift of axin1 to what appeared to be the plasma membrane. The associations of HSP90 with GSK-3β, β-catenin, p-β-catenin and axin1 were confirmed biochemically by co-immunoprecipitation and inhibition using 17-AAG, geldanamycin and novobiocin. We showed, for the first time that HSP90 is associated in a possible complex with β-catenin, p-β-catenin and axin1 therefore is potentially involved in the modulation of p-β-catenin in the Wnt pathway through the stabilization of the destruction complex.
|
Page generated in 0.0704 seconds