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Runx1 C-terminal Domains During Hematopoietic Development and Leukemogenesis: A DissertationDowdy, Christopher R. 25 May 2012 (has links)
Runx1 is a master regulator of hematopoiesis, required for the initiation of definitive hematopoiesis in the embryo and essential for appropriate differentiation of many hematopoietic lineages in the adult. The roles of Runx1 in normal hematopoiesis are juxtaposed with the high frequency of Runx1 mutations and translocations in leukemia. Leukemia associated Runx1 mutations that retain DNA-binding ability have truncations or frame shifts that lose C-terminal domains. These domains are important for subnuclear localization of Runx1 and protein interactions with co-factors. The majority of leukemia associated Runx1 translocations also replace the C-terminus of Runx1 with chimeric fusion proteins. The common loss of Runx1 C-terminal domains in hematopoietic diseases suggests a possible common mechanism. We developed a panel of mutations to test the functions of these domains in vitro, and then developed mouse models to examine the consequences of losing Runx1 C-terminal domains on hematopoietic development and leukemogenesis in vivo.
We previously observed that overexpression of a subnuclear targeting defective mutant of Runx1 in a myeloid progenitor cell line blocks differentiation. Gene expression analysis before differentiation was initiated revealed that the mutant Runx1 was already deregulating genes important for maturation. Furthermore, promoters of the suppressed genes were enriched for binding sites of known Runx1 co-factors, indicating a non-DNA-binding role for the mutant Runx1.
To investigate the in vivo function of Runx1 C-terminal domains, we generated two knock-in mouse models; a C-terminal truncation, Runx1Q307X, and a point mutant in the subnuclear targeting domain, Runx1 HTY350-352AAA . Embryos homozygous for Runx1 Q307X phenocopy a complete Runx1 null and die in utero from central nervous system hemorrhage and lack of definitive hematopoiesis. Embryos homozygous for the point mutation Runx1HTY350-352AAA bypass embryonic lethality, but have hypomorphic Runx1 function. Runx1HTY350-352AAA results in defective growth control of hematopoietic progenitors, deregulation of B-lymphoid and myeloid lineages, as well as maturation delays in megakaryocytic and erythroid development.
Runx1 localizes to subnuclear domains to scaffold regulatory machinery for control of gene expression. This work supports the role of transcription factors interacting with nuclear architecture for greater biological control, and shows how even subtle alterations in that ability could have profound effects on normal biological function and gene regulation.
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The Use of Antibody-Guided and Recombinant Subunit Vaccine Technology in the Study and Control of Enteric Health in PoultryDuff, Audrey Faye January 2018 (has links)
No description available.
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Positive correlation between A3 subunit of glycinin and firmness of tofu made from soybeans grown in three locations over two yearsChen, Ruiqi 10 December 2021 (has links) (PDF)
Producing desirable firmness is important in manufacturing tofu from soybeans. This study’s objective was to explore the environmental impact (location and year) on soybean chemical components and identify the correlations between chemical composition and the firmness of tofu made from soybeans planted in three locations over two years. Seventeen soybean Plant Introductions (PI) from the USDA Soybean Germplasm Collection and eight check varieties were planted in Mississippi, Virginia and Missouri in 2017 and 2018. Protein subunit composition, protein secondary structure, phytic acid content, Ca2+ and Mg2+ content were determined. The result showed that A3 subunit content was strongly correlated with tofu firmness. Environmental factors had a significant influence on some chemical components in soybean seeds as well as tofu texture. The current study confirmed the validity of using A3 peptide as a criterion for estimating tofu firmness in both tofu manufacturing and food-grade soybean trade.
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Elucidating the Role of the α7 Nicotinic Receptor in the Etiology of Schizophrenia.Chandley, Michelle Johnson 13 December 2008 (has links) (PDF)
The α7 subunit of the nicotinic receptor, a ligand gated ion channel with an affinity for nicotine, has long been implicated in the pathophysiology of schizophrenia due to the extremely high rate of smoking within the patient population. However, the exact role of the receptor has never fully been determined. In the following studies, various functions the receptor may assume in disease state are evaluated. There is a strong relationship between the immune system and schizophrenia, with the α7 subunit possibly serving as the link between the two. One of the following studies looks at the possibility of the receptor functioning as antigen in an autoimmune response. Blood sera of schizophrenic patients, as well as controls, were analyzed for the presence of antibodies to the α7 subunit of the nicotinic receptor. A sensitive ligand-based assay revealed schizophrenic patients could possess a pathogenic level of antibody that may exacerbate the degenerative nature of the disease, allowing for the possibility that receptor antibodies may serve as a contributing factor in the etiology of the disorder in at least a subset of patients. In other studies, the expression of the α7 receptor was investigated. Recombinant α7 receptor production has eluded researchers in non-mammalian species and this was the focus of our initial studies. In general, the lack of sufficient molecular recombinant techniques utilizing the receptor makes characterization of the α7 receptor and it's specific protein interactions difficult to evaluate. The regulatory mechanisms of the nicotinic receptor α7 subunit production and receptor formation have yet to be completely elucidated. Results in this investigation found a relationship between a functional CRE-element in the promoter region.
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Discovery of DNA Aptamers Targeting SARS-CoV-2 Proteins and Protein Binding Epitopes Identification for Label-Free COVID-19 DiagnosticsPoolsup, Suttinee 05 September 2023 (has links)
No description available.
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Positional cloning and functional analysis of the <i>SF3B1</i>gene in zebrafishAn, Min 06 June 2007 (has links)
No description available.
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Finding genetic elements that head to the autistic phenotypeGillis, Robert Francis Fraser January 2007 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Structural aspects of the ribosome evolution and functionBokov, Konstantin 04 1900 (has links)
Les résultats ont été obtenus avec le logiciel "Insight-2" de Accelris (San Diego, CA) / En 2000, les structures à hautes résolutions des deux sous-unités ribosomiques ont finalement été mises à la disposition du public. L'année suivante, la structure aux rayons X de l'ensemble du ribosome bactérien a été publiée. Ces grandes réalisations ont ouvert une nouvelle ère dans l'étude des mécanismes de la synthèse des protéines. Dès lors, il est devenu possible de relier différents aspects de la fonction du ribosome à des éléments particuliers de sa structure tertiaire. L'établissement de la relation structure-fonction peut toutefois être problématique en raison de l'immense complexité de la structure du ribosome. En d'autres termes, pour que les données cristallographiques sur la structure tertiaire du ribosome soient vraiment utiles à la compréhension du fonctionnement du ribosome, ces données devraient elles-mêmes faire l'objet d'une analyse approfondie. Le travail, présenté ici, peut être vu comme une tentative de ce genre. En appliquant l’analyse systématique des structure cristallographiques du ribosome disponibles, nous avons essayé de résoudre deux problèmes fondamentaux de la biologie ribosomale concernant (1) la nature des réarrangements du ribosome qui ont lieu à différentes étapes de son cycle de fonctionnement et (2) la possibilité de reconstitution de l'évolution du ribosome du monde-à-ARN jusqu’à nos jours.
Dans le premier projet, nous avons systématiquement comparé les structures du ribosome disponibles et de sa sous-unité afin d'identifier les domaines rigides, qui ont toujours la même conformation, et les régions flexibles dont la conformation peut varier d'une structure de ribosome à une autre. Il y a deux types de réarrangements structuraux connus dont nous voulions comprendre les mécanismes: le « ratchet-like movement » et la «fermeture de domaines ». Le premier a lieu au cours de la translocation du ribosome et est plus ou moins perçu comme une rotation d'une sous-unité par rapport à l'autre. Le deuxième se produit dans la petite sous-unité et est associé à la reconnaissance codon-anticodon au site A.
La comparaison des conformations ribosomales disponibles a révélé les mécanismes spécifiques des deux réarrangements. Bien que la sélection de l'aminoacyl-ARNt appropriée au site A et la translocation du ribosome n'ont jamais été considérés comme ayant quelque chose en commun, nous démontrons ici que les réarrangements de la structure des ribosomes associés au premier processus répète les réarrangements associés au deuxième mais dans l’ordre inverse. En d'autres termes, pendant le cycle d'élongation, la fermeture de domaine et le « ratchet » peuvent
ii être considérés comme un mouvement de va-et-vient, qui renvoie finalement le ribosome à sa conformation initiale.
Dans le second projet, nous avons fait une tentative de reconstitution de l'évolution de l'ARNr 23S, du monde-à-ARN jusqu`à nos jours. Ici nous nous sommes basés sur la supposition que l'évolution de cette molécule a procédé par des insertions aléatoires des régions relativement courtes dans différentes parties de la chaîne poly-nucléotidique. Pour cela, nous avons élaboré des critères de l'intégrité de la structure ribosomale et présumé que lors de l'évolution, la structure du ribosome s’est toujours adaptée à ces standards. Nous avons examiné l'interaction de type A-mineur, un arrangement fréquent dans la structure de l’ARN ribosomique, constitué d'un empilement d’adénosines non-appariées, attachées à une double hélice. Nous avons supposé que dans toutes les interactions A-mineurs existantes dans le ribosome, la double hélice est apparue avant ou au moins simultanément avec la pile d’adénosines correspondantes. L'application systématique de ce principe à la structure tertiaire de l’ARN 23S a permis d'élucider de manière progressive l'ordre dans lequel les parties différentes de l’ARN 23S ont rejoint la structure.
Pris ensemble, les deux projets démontrent l'efficacité de l'analyse systématique in-silico de la structure tertiaire du ribosome et ouvrent la voie à de futures découvertes. / In the year 2000, the first high-resolution structures of the individual ribosomal subunits became available to the public. The following year, the X-ray structure of the complete bacterial ribosome was published. These major achievements opened a new era in studying the mechanisms of protein synthesis. From then on, it became possible to attribute different aspects of the ribosome function to particular elements of its tertiary structure. However, establishing the structure-function relationships is problematic due to the immense complexity of the ribosome structure. In other words, in order to make the crystallographic data on the ribosome tertiary structure really useful for understanding of how the ribosome functions, it must be thoroughly analyzed. Here, based on systematic analysis of the available X-ray conformations of the ribosome we have tried to resolve two fundamental problems of the ribosome biology: concerning (1) the nature of rearrangements in the ribosome that take place at different steps of its functional cycle, and (2) the reconstruction of the ribosome evolution from the RNA world to present time.
In the first project, we systematically compared the available structures of the ribosome and its subunits to identify rigid domains, which always have the same conformation, and flexible regions, where the conformation can vary from one ribosome structure to another. There were two known types of structural rearrangements whose mechanisms we wanted to understand: the ratchet-like motion and the so-called domain closure. The ratchet-like motion takes place during the ribosomal translocation and is roughly seen as a rotation of one subunit with respect to the other. The domain closure occurs in the small subunit and is associated with the cognate codon-anticodon recognition in the A-site.
Comparison of the available ribosome conformations revealed the detailed mechanisms of both rearrangements. Although the selection of the cognate amino-acyl-tRNA in the A-site and of the ribosomal translocation have never been thought to have anything in common, we demonstrate that the rearrangements in the ribosome structure associated with the first process repeat in reverse order the rearrangements associated with the second process. In other words, during the ribosome elongation cycle, the domain closure and the ratchet-like motion can be seen as a back-and-forth movement, which eventually returns the ribosome to the initial conformation.
iv
In the second project, we attempted to reconstruct the evolution of the 23S rRNA from the RNA world to present time based on the presumption that the evolutionary expansion of this molecule proceeded though random insertions of relatively short regions into different regions of the polynucleotide chain. We developed criteria for integrity of the ribosome structure and presumed that during the evolutionary expansion, the ribosome structure always matched to these standards. For this, we specifically considered the A-minor interaction, a frequent arrangement in the rRNA structure consisting of a stack of unpaired adenosines tightly attached to a double helix. We presumed that in all A-minor interactions present in the ribosome, the double helix emerged before or at least simultaneously with the corresponding adenosine stack. The systematic application of this principle to the known tertiary structure of the 23S rRNA allowed us to elucidate in a step-vise manner the order in which different part of the modern 23S rRNA joined the structure.
Taken together, the two projects demonstrate the effectiveness of the systematic in-silico analysis of the ribosome tertiary structure and pave the way for future discoveries.
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Interakce vybraných bílkovin s RNA polymerázou z Bacillus subtilis / Interaction of selected proteins with RNA polymerase from Bacillus subtilisJirát Matějčková, Jitka January 2012 (has links)
No description available.
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Avaliação sistemática de camarões de água doce do gênero Atya Leach, 1816 (Crustacea: Decapoda: Atyidae) por meio de dados moleculares / Systematic evaluation of freshwater prawns of the genus Atya Leach, 1816 (Crustacea: Decapoda: Atyidae) by means of molecular dataOliveira, Caio Martins Cruz Alves de 30 May 2017 (has links)
Os camarões do gênero Atya Leach, 1816 são os maiores camarões da família Atyidae, sendo que as 13 espécies reconhecidas estão distribuídas em rios e riachos das regiões tropicais e subtropicais da América (vertentes atlântica e pacífica) e oeste da África. O primeiro relato de uma Atya ocorreu no séc. XVII e, desde então, novas espécies foram descritas e descrições prévias revisadas, produzindo um histórico de instabilidade e reclassificações. Embora ao longo do séc. XX revisões taxonômicas tenham estabilizado a sistemática do gênero, a variabilidade morfológica e distribuição geográfica trans-ístmica da espécie A. innocous gerou questionamentos. Além disso, mais recentemente trabalhos de filogenia molecular da família Atyidae que incluíram representantes de Atya suscitaram questões em relação à sistemática do gênero (possível não monofilia) e de algumas espécies como A. gabonensis, A. margaritacea e A. scabra. Visto que o uso de marcadores moleculares nunca foi empregado para a delimitação das espécies de Atya e que seu uso de forma complementar à morfologia poderia aperfeiçoar a sistemática do gênero, o objetivo do presente estudo foi avaliar por meio de dados moleculares as hipóteses taxonômicas das espécies A. gabonensis, A. innocous, A. margaritacea e A. scabra. Sequências dos genes mitocondriais 16S e Citocromo Oxidase I e gene nuclear Histona 3 foram geradas por meio de protocolos de extração e sequenciamento de DNA a partir do tecido de espécimes obtidos em empréstimos/doações. Potenciais espécies evidenciadas pelas análises de similaridade nucleotídicas (distâncias genéticas), compartilhamento de caracteres em um contexto evolutivo (reconstruções filogenéticas), Automatic Barcode Gap Discovery, Poisson Tree Processes e Generalized Mixed Yule Coalescence foram confrontadas com as hipóteses taxonômicas específicas atuais. A avaliação sistemática com dados moleculares aqui realizada, adicionalmente às informações morfológicas existentes na literatura sustentaram A. gabonensis como uma espécie de distribuição anfi-atlântica, mas não corroborou a hipótese de A. innocous como uma espécie trans-ístmica. Assim, o uso do nome A. innocous para as populações do Mar do Caribe e A. tenella para aquelas restritas ao Pacífico é sugerido. A espécie A. margaritacea, distribuída ao longo da costa pacífica da América foi considerada uma espécie válida e distinta de A. scabra, amplamente distribuída na vertente atlântica da América do Sul, África e Mar do Caribe. Contudo, é discutida a possibilidade de uma espécie críptica restrita no Golfo do México existir. Adicionalmente, o conhecimento existente e pertinente para futuros estudos de sistemática e taxonomia sobre os camarões do gênero Atya foram sumarizados e são apresentados. / The genus Atya Leach, 1816 shrimps are the largest of the Atyidae family, and the 13 acknowledge species are geographically distributed in rivers and stream in the tropical and subtropical regions of America (Atlantic and Pacific drainages) and West Africa. The first registry of an Atya was in the XVII century and since then new species were described and previous description revised in an eventful taxonomic historic. Although throughout the XX century taxonomic revisions stabilized the genus systematics, the morphological variability and the trans-isthmic geographic distribution of A. innocous caused questioning. Moreover, molecular phylogenetic studies that included Atya representatives raised doubt on the genus systematics (possibly non-monophyletism) and some species A. gabonensis A. margaritacea and A. scabra hypothesis. As molecular markers have never been used concerning Atya species delimitation complementary to the morphology and it could improve the genus systematics, the goal of this study was to evaluate with molecular markers the taxonomic hypothesis of the species A. gabonensis, A. innocous, A. margaritacea e A. scabra. Sequences of the mitochondrial genes 16S and Cytochrome Oxidase I and nuclear gene Histone 3 were generated by means of DNA extraction and sequence protocols from specimens obtained in loans/donations. Putative species evidenced by the analysis of nucleotide similarity (genetic distances), character sharing (phylogenetic reconstitutions), Automatic Barcode Gap Discovery, Poisson Tree Processes and Generalized Mixed Yule Coalescence were compared to the prevailing taxonomic hypothesis. The systematic evaluation with the molecular data of this study, in addition with the morphological information in the literature sustain A. gabonensis as an amphi-atlantic distributed species, but do not corroborated A. innocous hypothesis as an trans-isthmian species. In this sense, the use of A. innocous stricto sensu for the Caribbeans Sea populations and A. tenella to that restricted to the pacific drainage of America is suggested. Atya margaritacea, distributed along the pacific drainage of America, is considered a valid species distinct from A. scabra, widespread distributed in the Atlantic drainage of America and Africa, besides Caribbean Sea. However, the possibility of a cryptic species in the Gulf of Mexico population is discussed. Aditionally, the relevant knowledge to future systematic and taxonomy studies about the shrimps of the genus Atya were summarized and are shown.
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