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Regulatory evolution of HSP70 in Drosophila melanogaster /Lerman, Daniel N. January 2003 (has links)
Thesis (Ph. D.)--University of Chicago, Committee on Evolutionary Biology, June 2003. / Includes bibliographical references. Also available on the Internet.
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Developmental regulation of arginine kinase in Drosophila melanogasterJames, Judith McNease. Collier, Glen E. January 1987 (has links)
Thesis (Ph. D.)--Illinois State University, 1987. / Title from title page screen, viewed July 26, 2005. Dissertation Committee: Glen E. Collier (chair), Herman E. Brockman, H. Tak Cheung, Alan J. Katz, David F. Weber. Includes bibliographical references (leaves 96-104) and abstract. Also available in print.
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The modification of X-ray induced chromosome changes with anoxia in different oocyte stages of Drosophila melanogasterSeeley, Barbara Ann, January 1966 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1966. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.
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Rôle de la petite protéine de stress HSP23 dans le vieillissement et la résistance au stress /Samson, Mélanie. January 2004 (has links)
Thèse (M.Sc.)--Université Laval, 2004. / Bibliogr.: f. 91-111. Publié aussi en version électronique.
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An analysis of the role of doubletime's casein kinase activity in regulating the temporal program of period protein and the circadian behavior of drosophila melanogasterPreuss, Fabian. Price, Jeffrey L. January 2006 (has links)
Thesis (Ph. D.)--School of Biological Sciences. University of Missouri--Kansas City, 2006. / "A dissertation in molecular biology and biochemistry and cell biology and biophysics." Advisor: Jeffrey L. Price. Typescript. Vita. Title from "catalog record" of the print edition Description based on contents viewed Jan. 29, 2007. Includes bibliographical references (leaves 125-132). Online version of the print edition.
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Genotoxicity of five nitrosamines and their inhibition by moist snuff extract in the Drosophila wing spot assayPradit Tungskul. Katz, Alan J. January 1993 (has links)
Thesis (Ph. D.)--Illinois State University, 1993. / Title from title page screen, viewed March 10, 2006. Dissertation Committee: Alan J. Katz (chair), Herman E. Brockman, David F. Weber, Brian J. Wilkinson, Marjorie A. Jones. Includes bibliographical references (leaves 146-159) and abstract. Also available in print.
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Isolation and characterization of temperature sensitive alleles of the catalytic subunit of Drosophila CK2[alpha]Kuntamalla, Pallavi P. January 1900 (has links)
Thesis (M.S.)--West Virginia University, 2006. / Title from document title page. Document formatted into pages; contains viii, 102 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 86-100).
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Regulation of programmed cell death in the development of the drosophila antenna and ovaryCullen, Kristen M. January 2006 (has links)
Thesis (Ph.D.)--Boston University / PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage form for this thesis or dissertation. It is therefore not openly accessible, though it may be available by request. If you are the author or principal advisor of this work and would like to request open access for it, please contact us at open-help@bu.edu. Thank you. / Apoptosis, or programmed cell death, is a genetically controlled form of cell suicide used to rid an organism of superfluous or damaged cells and serves as one of the major mechanisms for patterning during the development of complex animal structures. The antenna and ovary of the fruitfly, Drosophila melanogaster, were chosen as model systems in which to examine the molecular mechanisms of developmental apoptosis. The caspases are a family of cysteine proteases required for the execution of cell death, while the inhibitor of apoptosis protein Diap-1 is responsible for repressing the function of caspases. Diap-1, also known as Thread, was discovered in 1922 with the isolation of thread^1, a homozygous viable mutant whose molecular nature is unknown. thread was given its name due to its branchless or thread-like arista, the featherlike structure at the tip of the antenna. thread^1 antennal imaginal discs show excessive cell death during a brief period of larval development, which corresponds to a significant decrease in levels of Thread protein. Caspase activity is found more broadly than apoptotic DNA fragmentation in thread1 imaginal discs, suggesting that the mutant fails to inhibit caspases in many cells, but only a fraction succumb to apoptosis. These findings point to a narrow window of development in which regulation of programmed cell death is essential to the formation of the arista. Additionally, a candidate mutation has been discovered in a transcriptional regulatory region of the thread gene. Proof that this mutation is responsible for the branchless aristal phenotype may have important implications for understanding tissue-specific gene regulation during organogenesis. In the ovary, apoptotic roles for the DP subunit of the E2F transcription factor and the actin binding protein Profilin were investigated. While mutants for DP affect the regulation of Cytochome c and caspase activity in nurse cells, Profilin mutants show milder effects. To further characterize the role of apoptosis in the ovary, an ethylmethane sulphonate (EMS) mutagenesis screen was conducted and has led to the identification of several new genes. Future study of the apoptotic pathway will assist in developing treatments for diseases associated with its misregulation. / 2031-01-02
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Participación del dominio S97N de la proteína DLG en el desarrollo de la sinapsis neuromuscular de larvas de Drosophila melanogasterBarría Maturana, Romina January 2006 (has links)
Memoria para optar el título de Bioquímico / La localización precisa de los componentes sinápticos durante el
desarrollo requiere del ordenamiento de una red de proteínas entre las cuales
participan proteínas andamio de la familia MAGUK (membrane-associated
guanylate kinases). Los miembros de esta familia reclutan receptores, canales
iónicos, componentes de cascadas de transducción de señales y proteínas del
citoesqueleto en complejos macromoleculares a través de sus dominios de
interacción proteína-proteína.
La sinapsis neuromuscular de la larva de Drosophila melanogaster es un
excelente modelo de sinapsis centrales de mamíferos. En esta sinapsis
glutamatérgica, la proteína andamio Discs large (Dlg), un miembro de la familia
MAGUK, cumple un papel importante en la formación de la sinapsis y en la
localización de proteínas involucradas en la transducción de señales.
Se ha demostrado que Dlg determina la localización sináptica del canal
de K+ tipo Shaker, Fasciclina II (FasII), una molécula de adhesión celular
involucrada en el crecimiento y plasticidad de la sinapsis neuromuscular y
Scribble (Scrib), una proteína involucrada en el mantenimiento de la
concentración de vesículas sinápticas en los sitios de liberación durante la
estimulación de alta frecuencia. Dlg, además participa en otros procesos,
incluyendo el mantenimiento de la polaridad apicobasal de los epitelios, el
control de la proliferación y la neurogénesis embrionaria.
Todas estas funciones han sido atribuidas a una sola isoforma, DlgA. Sin
embargo, en nuestro laboratorio se aislaron una serie de transcritos que
corresponden a variantes de procesamiento alternativo del gen dlg que presentan en su extremo 5’ una región que codifica un segmento de 65
aminoácidos llamado S97N y que está ausente en DlgA. Las variantes de dlg
que contienen S97N como la proteína denominada DlgS97, sólo se expresan en
sistema nervioso y músculo, a diferencia de DlgA que también se expresa en
células epiteliales.
En este trabajo se estudió el papel de las variantes del gen dlg con
dominio S97N en la estructura y formación de la sinapsis de la unión
neuromuscular de la larva.
Mediante análisis de “western blot” se determinó la proteína DlgS97 de
∼116 kDa y al menos una variante de DlgA de ∼97 kDa. Experimentos de
ganancia y pérdida de función específicas para las variantes epitelial y neuronal
muestran que las variantes que contienen el dominio S97N participan en el
desarrollo de la sinapsis, afectando la morfología y el número de botones
sinápticos, además de la expresión de la proteína Scrib y parcialmente la
localización de FasII en la sinapsis. Esto difiere de lo observado para la pérdida
de función de DlgA que no parece afectar la morfología o expresión de Scrib,
aunque sí afecta el número de botones y la expresión de FasII.
Mediante ensayos en matriz sólida e inmunoprecipitación se logró
determinar que el dominio S97N es capaz de formar homodímeros, sin
interactuar con dominios de DlgA. Estos resultados sugieren que ambas
isoformas participan en la sinapsis pero con funciones diferentes, formando
complejos macromoleculares de manera independiente / The precise location of the synaptic components during development
requires the arrangement of a protein network which includes scaffold proteins
of the MAGUK family. The members of this family of proteins recruit receptors,
ionic channels, signal transduction components and proteins of the cytoskeleton
to macromolecular complexes through protein-protein interaction domains.
The neuromuscular synapse of the Drosophila melanogaster larva has
been used as a model of mammalian central synapses. In this glutamatergic
synapse, the scaffold protein Discs large (Dlg), a member of the MAGUK
(membrane-associated guanylate kinases) family of proteins, has an important
role in the formation of the synapse and in the localization of proteins involved in
signal transduction.
It has been demonstrated that Dlg determines the synaptic localization of
the Shaker K+ channel, of Fasciclin II (FasII), an adhesion molecule involved in
the growth and plasticity of the neuromuscular synapse and of Scribble (Scrib),
a protein involved in the maintenance of the synaptic vesicle pool in the release
sites during high frequency stimulation. Dlg also participates in other processes,
including the maintenance of the epithelial apico-basal polarity, the control of
proliferation and embrionic neurogenesis.
All these functions have been attributed to a single isoform, DlgA. In our
laboratory, however, a number of transcripts has been isolated that represent
alternatively processed products of the gene dlg, these present a 5' region that encodes a segment of 65 amino acids called S97N that is absent in DlgA. The
variants S97N-containig as protein denominated DlgS97 are only expressed in
nervous system and muscle, unlike DlgA that is also expressed in epithelial
cells. In this work, the role of Dlg variants with S97N domain in the structure and
development of the neuromuscular junction was studied. Western blot analysis
indicates the presence of the protein DlgS97 of 116 kDa and at least one variant
of DlgA of 97 kDa. Loss of function and gain of function experiments specific for
the epithelial and neuronal variants show that variants containing the S97N
domain participate in the development of the synapse, affecting the morphology
and number of synaptic boutons, together with the expression of Scrib and the
partial localization of FasII at the synapse. This is different from the DlgA loss of
function where the morphology or the expression of Scrib does not change,
although the number of boutons and the expression of FasII is affected. By
pulldown and inmunoprecipitation assays it was possible to determine that the
S97N domain is able to undergo homodimerization, but does not interact with
domains of DlgA. These results suggest that both isoforms participate in the
synapse but with different functions, forming macromolecular complexes in an
independent way
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Avaliação genotóxica do composto PT-31, do Elixir Sanativo® e do extrato do Sanativo® em linhagens de Drosophila melanogaster e Saccharomyces cerevisiaeLIMA, Adiles Paulo de 12 March 2015 (has links)
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Previous issue date: 2015-03-12 / REUNI / CAPES / PT-31 [3-(2-cloro-6-fluorobenzil)-imidazolidina-2,4-diona] é um composto descrito com atividade analgésica e o elixir SANATIVO® (SAN e extrato de SAN, E. SAN) é um fitoterápico comum no Nordeste do Brasil. Esses produtos terapêuticos necessitam de testes adicionais antes de ter aplicabilidade humana, inclusive ensaios genéticos. Assim, dois testes de danos genéticos foram escolhidos para o presente trabalho: o Teste de Mutação e Recombinação Somática (SMART) em Drosophila melanogaster que detecta tipos diferentes de mutações e recombinação, e mutantes de recombinação e reversão de Saccharomyces cerevisiae, ambos apresentam baixo custo, confiabilidade e rapidez, visando a análise genética para o uso mais seguro dos compostos. O fármaco PT-31 foi avaliado através da técnica SMART e pelo teste com os mutantes de S. cerevisiae; com o elixir SANATIVO® foi formada uma curva de sobrevivência larval utilizando os dois tipos de cruzamentos (ST e HB) do SMART, em seguida este ensaio foi empregado; e o extrato de SAN foi analisado pelo SMART e através das linhagens de S. cerevisiae. Notou-se a possibilidade de SAN ter reduzido a toxicidade do álcool por meio da sobrevivência larval. Enquanto que o SMART de SAN e de E. SAN revelou efeito mutagênico na maioria das concentrações testadas, com ativação metabólica e efeito recombinogênico ausentes, sem alteração identificável nos testes em S. cerevisiae. O PT-31 mostrou efeito mutagênico e atividade recombinogênica no teste SMART, aumentando o efeito mutagênico pela atividade metabólica do sistema P450, e nenhuma alteração fenotípica no teste em S. cerevisiae. Esses dados contribuem para a ampliação das informações sobre os compostos terapêuticos na literatura, para que futuros experimentos possam elucidar melhor a ação em organismos vivos. / PT-31 [3-(2-chloro-6-fluorobenzyl)-imidazolidine-2,4-dione] is a compound described with analgesic activity and SANATIVO® elixir (SAN e SAN extract, E. SAN) is a common phytotherapic in the Northeast of Brazil. Those therapeutic products require additional tests before human applicability, including genetic assays. The Mutation and recombination Somatic Test (SMART) in Drosophila melanogaster provides different sorts of mutations and recombination, and recombination and reversion mutants of Saccharomyces cerevisiae, both present low cost, reliability and speed, in order the genetic analysis for a safer use of the compounds. The PT-31 drug was evaluated by SMART technique and by the test with S. cerevisiae mutants; with the SANATIVO® elixir was constructed a larval survival curve using two types of crosses (ST and HB) of SMART, then this assay was used; and the SAN extract was assessed by SMART and by S. cerevisiae strains. It was noticed the possibility of SAN have reduced toxicity of the alcohol by larval survival. While the SMART of SAN and of E. SAN revealed mutagenic effect in most of the tested concentrations, with metabolic activation and absent recombinogenic effect, without identifiable modification in the tests in S. cerevisiae. The PT-31 showed mutagenic effect and recombinagenic activity in the SMART test, increasing of mutagenic effect by the metabolic activity of P450 system, and none phenotypic change in the test in S. cerevisiae. These data contribute to the expansion of information on the therapeutic compounds in the literature, so that future experiments will be able to elucidate the action in living organisms.
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