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Nuclear magnetic resonance studies of the xUBF Box 1 DNA binding domain /Kantola, Angeline R. January 2001 (has links)
Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 171-177).
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The role of high mobility group protein B2 and methyl-CpG-binding protein 2 in the regulation of epigenetic events during neonatal myocardial development. / CUHK electronic theses & dissertations collectionJanuary 2004 (has links)
Kou Ying Chuck. / "July 2004." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2004. / Includes bibliographical references (p. 186-199). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.
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Establishment of POP-1 asymmetry, a binary code for cell fate decisions in C. elegans /Park, Frederick D. January 2004 (has links)
Thesis (Ph. D.)--University of Washington, 2004. / Vita. Includes bibliographical references (p. 68-76).
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Caracterização molecular da interação entre proteínas de citros envolvidas no controle da expressão gênica e a proteína efetora bacteriana PthA, indutorra do cancro cítrico / Molecular characterization of the interaction between citrus proteins involved in gene transcription control and the effector protein PthA, a citrus canker disease inductorSouza, Tiago Antonio de 16 August 2018 (has links)
Orientador: Celso Eduardo Benedetti / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-16T01:56:52Z (GMT). No. of bitstreams: 1
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Previous issue date: 2010 / Resumo: O cancro cítrico, causado pela bactéria Xanthomonas axonopodis pv. citri (Xac), é uma doença que afeta a maioria das espécies do gênero Citrus, ocorrendo praticamente em todos os continentes, e se destaca como uma das ameaças à citricultura brasileira. O mecanismo molecular pelo qual Xac causa o cancro não é inteiramente conhecido, entretanto, sabe-se que a bactéria ao infectar a planta, utiliza o sistema secretório tipo ??? (TTSS) para injetar proteínas de patogenicidade, entre elas PthAs da família AvrBs3/PthA. Quando expresso na célula hospedeira, PthA induz lesões características do cancro como hipertrofia e hiperplasia. Estudos recentes demonstram que membros dessa família atuam como fatores de transcrição. Portanto, a elucidação de como PthA ativa a transcrição é de grande importância para o entendimento do seu mecanismo de ação e desenvolvimento das lesões do cancro. Neste contexto, o presente projeto teve como objetivo caracterizar interações entre a proteína PthA de Xac e as proteínas CsARF (Auxin Response Factor) e CsHMG (High-mobility group) de laranja doce (Citrus sinensis), previamente identificadas em ensaios de duplo híbrido de leveduras. CsARF tem elevada similaridade com AtARF2, um repressor transcricional envolvido na via de sinalização por auxinas. Hormônios vegetais desempenham um importante papel na interação planta-patógeno e em nosso laboratório verificamos que auxinas são importantes para o desenvolvimento dos sintomas do cancro. CsARF foi capaz de interagir com a maioria das variantes de PthA tanto in vitro quanto em ensaios de duplo-híbrido de leveduras. A interação de CsARF com PthA se dá através dos domínios C-terminal Aux/IAA e B3 de ligação ao DNA. Verificamos que o promotor do gene de uma expansina de citros, induzido por Xac e auxina, apresenta possíveis sítios de ligação das proteínas CsARF e PthA. Dados de EMSA indicam que PthA e CsARF ligam em sítios adjacentes no promotor da expansina de citros e que a interação de PthA com CsARF poderia deslocá-la do promotor. A proteína CsHMG é semelhante a AtHMGB1 de Arabidopsis thaliana, envolvida em crescimento celular. CsHMG interagiu com todas as variantes de PthA, sendo que essa interação envolve uma região rica em leucinas (LRR), idêntica nas quatro variantes de PthA. Verificou-se também que CsHMG é capaz de ligar DNA de forma inespecífica. Por outro lado, CsHMG ligou RNA in vitro, com especificidade para RNAs ricos em uridina (poly-U). Como PthA age como fator de transcrição eucarioto, não é surpreendente que proteínas do hospedeiro envolvidas com regulação gênica sejam capazes de interagir com esse efetor, sugerindo um novo modo de ação de proteínas efetoras bacterianas. / Abstract: Citrus canker disease, caused by Xanthomonas axonopodis pv. citri (Xac), affects almost all citrus species and represents a major threat to the Brazilian citriculture. The molecular mechanism by which Xac causes citrus canker disease is poorly understood, however the bacterium injects pathogenicity proteins through a type III secretion system (TTSS) including proteins of AvrBs3/PthA family proteins. When transiently expressed in host cells, PthAs alter transcription of the host cell to the benefit of the pathogen, leading to the development of the cancer lesions, including hypertrophy and hyperplasia. These proteins are thought to acts as eukaryotic transcriptional factors, binding and activating directly promoters of host genes. Therefore, elucidating how activates PthA transcription is very important to understanding the mechanisms governing the development of canker lesions. To elucidate how PthA activates transcription and to establish its molecular mode of action, a two-hybrid approach was used to identify host proteins that interact with PthA and therefore could be important for the development of the canker lesions. Among the citrus proteins identified, we selected for studies a CsARF (Auxin Response Factor) and a CsHMG (High-mobility group), both involved in regulation of gene transcription. CsARF shares high similarity to the Arabidopsis thaliana ARF2, involved in the auxin signaling pathway. This is in line with our previous studies showing that auxin is required for canker development. The interactions between all variants of PthA were analyzed both in vivoand in vitro and depend on the repeat domain of PthAs. The B3 DNA binding and the Aux/IAA domains of CsARF are both involved in protein-protein interactions. Interestingly, the citrus promoter of a citrus expansin gene that is up-regulated by Xac and auxin contains putative CsARF and PthA binding sites. Since these sites are located adjacent in this promoter, it is suggested that the interaction of PthA with CsARF might somehow affect the regulation of the expansin promoter. CsHMG is highly similar to the A. thaliana HMGB1 involved in cell growth. CsHMG interacts with all PthA variants and its interaction was shown to be mediated primarly by the leucine-rich repeat (LRR) region of PthAs. CsHMG binds to DNA in a non-specific fashion; surprisingly, however, CsHMG shows an as yet unreported ability to bind to synthetic RNA forms with an apparent specificity to poly-U probes. PthA acts like an eukaryotic transcription factor and is not surprising that host proteins involved with gene regulation can interact with this effector, suggesting a new mode of action of these bacterial effector proteins. / Mestrado / Genetica Vegetal e Melhoramento / Mestre em Genética e Biologia Molecular
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SOX13, A γδ T Cell-Specific Gene, Is a WNT-Signaling Antagonist Regulating T Cell Development: A DissertationMelichar, Heather J. 19 May 2006 (has links)
Mature αβ and γδ T cells arise from a common precursor population in the thymus. Much debate has focused on the mechanism of T cell lineage choice made by these multi-potential precursor cells. It is widely believed that the decision of these precursor cells to commit to the γδ or αβ T cell lineages is regulated primarily by a specific instructive signal relayed through the appropriate T cell receptor. Contrary to this model, we present evidence for a TCR-independent lineage commitment process. Comparison of global gene expression profiles from immature αβ and γδ lineage thymocytes identified Sox13, an HMG-box transcription factor, as a γδ T cell-specific gene. Unlike other HMG-box transcription factors such as TCF1, LEF1 and SOX4, that are critical for proper αβ T cell development, Sox13 expression is restricted to early precursor subsets and γδ lineage cells. Importantly, SOX13 appears to influence the developmental fate of T cell precursors prior to T cell receptor expression on the cell surface. Transgenic over-expression of Sox13 in early T cell precursors strongly inhibits αβ lineage development, in part, by inhibiting precursor cell proliferation and concomitantly, leading to increased cell death among αβ lineage subsets. Steady-state γδ T cell numbers, however, appear unaffected. Strikingly, the DP αβ lineage cells that do develop in Sox13 transgenic mice are imprinted with a γδ- or precursor-like molecular profile, suggesting that SOX13 plays an active role in the lineage fate decision process or maintenance. Sox13-deficient mice, on the other hand, have selectively reduced numbers of γδ thymocytes, indicating that SOX13 is essential for proper development of γδ T cells. We present additional data demonstrating that SOX13 is a canonical WNT signaling antagonist modulating TCF1 activity, raising a strong possibility that WNT signals, and their modulators, are at the nexus of γδ versus αβ T cell lineage commitment.
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