853 resultados para post-embrionic development
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Pós-graduação em Agronomia (Genética e Melhoramento de Plantas) - FCAV
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RESUMO O conhecimento relativo ao diásporo e ao desenvolvimento pós-seminal de Paspalum L. é importante para a conservação da biodiversidade dos campos, devido sua importância na representatividade e no melhoramento genético de pastagens. A morfologia do diásporo e do desenvolvimento pós-seminal de Paspalum dilatatum Poir. (rizomatosa); P. mandiocanum Trin. var. subaequiglume Barreto (estolonífera), P. pumilum Nees. (cespitosa decumbente) e P. urvillei Steud. (cespitosa ereta) foi descrita procurando distinguir as espécies com diferentes formas de crescimento, e levantar características úteis para a taxonomia. P. dilatatum se diferencia por apresentar diásporo oval, de maior tamanho que as demais, com cinco nervuras salientes e tricomas; P. urvillei por apresentar diásporo com uma nervura central mais desenvolvida do que as duas nervuras laterais e tricomas; P. mandiocanum var. subaequiglume por apresentar diásporo com tricomas apenas na margem; e P. pumilum por apresentar diásporo glabro. A cariopse envolve a semente que apresenta embrião diferenciado, disposto lateralmente; apresenta hilo elíptico em todas as espécies estudadas e rostelo em P. dilatatum e P. mandiocanum var. subaequiglume. O desenvolvimento pós-seminal é semelhante nas quatro espécies e se inicia com a germinação, que é marcada pela emergência da coleorriza, seguida pelo coleóptilo. Essas características são comuns às demais Poaceae já estudadas, indicando um padrão para a família e não diferenciam as formas de crescimento.
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Matayba guianensis Aubl . is a shrubby or arborial Sapindaceae quite common in the Brazilian Cerrado with a key role in providing resources for ants and bees. It presents a rapid growth, and is important for the recovery of degraded areas, but little is known about its seedlings production. Therefore, the aim of this study was to describe the morphology of the branch and the seed germination and of seedling Matayba guianensis Aubl . in its post-seminal development and define the type of substrate and container suitable for seedling emergence and seedling production of this species. We evaluated three types of containers: black polyethylene bags, cartridge and polystyrene tray, with 5 kinds of substrates: sand, earth, earth - sand - manure (1:1:1); commercial substrate, and coconut fiber, with 4 replicates of 25 seeds per treatment . The branch, fruit, seed, seedling and their morphological events were described. The branch is cylindrical with paripinnate and alternate leaves, the fruit is dry and dehiscent. The seeds have a large amount of aryl, and the germination is cryptocotylar and hypogeal. The highest percentage of emergence occurred in styrofoam container with 91 % of the seeds germinated in commercial substrate , followed by coconut fiber (88 %). The development of root and stem were higher in tubes and plastic bags , using coconut fiber or commercial substrate.
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Background: Cladocera is an important group of freshwater zooplankton, and the species plays an important role in energy transfer and in aquatic food webs. Oxyurella longicaudis is a Chydoridae species that has been recorded in North and South America. The aim of this study is to investigate the life cycle aspects of parthenogenetic females of O. longicaudis cultured in laboratory under controlled conditions: temperature (23 degrees C +/- 05 degrees C), photoperiod (12 h light/12 h dark), food supply, and reconstituted water.Results: Embryonic development duration (2.3 +/- 0.5 days), post-embryonic development (5.2 +/- 0.69 days), mean fecundity (two eggs female(-1) brood(-1)), total egg production (22.55 +/- 3.98 eggs), average longevity (58 days), and body growth of the species were recorded. We also report the first DNA barcode for O. longicaudis isolated in Brazil, which will allow for easy identification in future zooplankton community studies. The analysis shows a genetic divergence of around 7% between our Brazilian isolate and O. longicaudis isolates from Mexico.Conclusions: The time of embryonic and post-embryonic development of O. longicaudis was higher than that of the other species of the same family, which contributed to lower total egg production throughout its life cycle. The genetic divergence appears to be sufficient to classify the two isolates as different species.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Genética e Melhoramento Animal - FCAV
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Whilst a fall in neuron numbers seems a common pattern during postnatal development, several authors have nonetheless reported an increase in neuron number, which may be associated with any one of a number of possible processes encapsulating either neurogenesis or late maturation and incomplete differentiation. Recent publications have thus added further fuel to the notion that a postnatal neurogenesis may indeed exist in sympathetic ganglia. In the light of these uncertainties surrounding the effects exerted by postnatal development on the number of superior cervical ganglion (SCG) neurons, we have used state-of-the-art design-based stereology to investigate the quantitative structure of SCG at four distinct timepoints after birth, viz., 1-3 days, 1 month, 12 months and 36 months. The main effects exerted by ageing on the SCG structure were: (i) a 77% increase in ganglion volume; (ii) stability in the total number of the whole population of SCG nerve cells (no change - either increase or decrease) during post-natal development; (iii) a higher proportion of uninucleate neurons to binucleate neurons only in newborn animals; (iv) a 130% increase in the volume of uninucleate cell bodies; and (v) the presence of BrdU positive neurons in animals at all ages. At the time of writing our results support the idea that neurogenesis takes place in the SCG of preas, albeit it warrants confirmation by further markers. We also hypothesise that a portfolio of other mechanisms: cell repair, maturation, differentiation and death may be equally intertwined and implicated in the numerical stability of SCG neurons during postnatal development. (C) 2011 ISDN. Published by Elsevier Ltd. All rights reserved.
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Die Alterung stellt den größten Risikofaktor für die Entwicklung der Alzheimer Krankheit dar, wobei die biochemische Basis dieser Korrelation bisher nicht bekannt ist. Ein möglicherweise zentraler Mechanismus der Alzheimer Pathologie wird durch die Prozessierung von APP repräsentiert, die in der Synthese von Aβ resultiert. Der Einfluss zellulärer Alterung auf die Biochemie der APP-Prozessierung ist bislang weitestgehend ungeklärt. In der vorliegenden Arbeit wurde gezeigt, dass die Prozessierung von endogenem APP im Verlauf der Zellalterung humaner Fibroblasten progressiv verringert wird. Die Bildung der intrazellulären APP-Spaltfragmente (C99, C83 und AICD) nahm mit zunehmender Lebensspanne ab und war gleichfalls mit einer reduzierten Synthese von extrazellulären APP-Fragmenten (sAPP, sAPPα) verbunden. Weiterhin wurde nachgewiesen, dass die Reifung von APP in seneszenten Zellen selektiv reduziert war, und dass dies durch altersabhängig erhöhte zelluläre Cholesterolspiegel vermittelt wurde. Von den APP-prozessierenden Sekretasen waren die Proteinspiegel von Presenilin-1 und Nicastrin, beides Komponenten der γ-Sekretase, im Verlauf der Zellalterung graduell verringert. Dies hatte einen progressiven Rückgang der enzymatischen Aktivität der γ-Sekretase zur Folge, wodurch die Prozessierung von APP unmittelbar reduziert wurde. Die Proteinspiegel von ADAM10, einer α-Sekretase, sowie der β-Sekretase, BACE, wiesen keine Altersregulation auf, aber interessanterweise wurde eine erhöhte enzymatische Aktivität der β-Sekretase in seneszenten Zellen nachgewiesen. Die γ-Sekretase sowie BACE sind in Lipid Rafts lokalisiert, geordneten Membransubdomänen, die hohe Cholesterol- und Caveolin-1-Spiegel aufweisen. Obwohl das Gesamtniveau dieser strukturellen Komponenten von Lipid Rafts in seneszenten Zellen erhöht war, war die Assoziation beider Moleküle mit Lipid Rafts reduziert und sie akkumulierten in speziellen Organellen, die höchstwahrscheinlich Lipidkörper darstellen. Somit wurde gezeigt, dass Lipid Rafts im Zuge der Zellalterung disintegrieren beziehungsweise in ihrem Gesamtspiegel reduziert waren. Diese altersabhängige Membranmodifikation war mit einer veränderten Verteilung von Presenilin-1 und BACE zwischen der Lipid Raft und der Nicht Raft Fraktion der Membran verbunden, die möglicherweise das Potential dieser Enzyme zur Prozessierung von APP reduzierte. In einem zweiten Teil der Arbeit wurden transgene C. elegans konstruiert, die humanes APP exprimieren, das C-terminal an GFP gekoppelt war. Diese Würmer wiesen eine reduzierte Fertilität, Eilegedefekte und eine verzögerte post-embryonale Entwicklung auf, die möglicherweise auf eine Transgen-vermittelte Neurodegeneration zurückgeführt werden können. Durch erste Untersuchungen der Prozessierung des Transgens konnten Spaltfragmente nachgewiesen werden, die potentiell auf eine spezifische Spaltung von APP durch die endogenen Sekretasen schließen lassen. Somit werden die Prozessierung sowie die Reifung von APP durch die altersabhängige Modifikationen zellulärer Biochemie nachhaltig beeinflusst. Zukünftige Studien sollen zeigen, ob sich diese zellulären Zusammenhänge in den Gesamtorganismus C. elegans übertragen lassen. Des Weiteren sollen die altersabhängigen zellulären Veränderungen, insbesondere des Cholesterol-Metabolismus und der Sekretaseaktivitäten, weitergehend analysiert werden, um zusätzliche Erkenntnisse über altersassoziierte Regulationen möglicher therapeutischer Ziele der Alzheimer Erkrankung zu gewinnen.
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The social amoeba, Dictyostelium discoideum, undergoes a remarkable starvation-induced program of development that transforms a population of unicellular amoebae into a fruiting body composed of resistant spores suspended on a stalk. During this development, secreted cAMP drives chemotaxis of the amoebae, leading to their aggregation, and subsequent differentiation and morphogenesis. Four sequentially expressed G protein-coupled receptors (GPCRs) for cAMP play critical roles in this process. The first of these, cAR1, is essential for aggregation as it mediates chemotaxis as well as the propagation of secreted cAMP waves throughout aggregating populations. Ligand-induced internalization has been shown to regulate a variety of GPCRs. However, little was known at the outset of this study about the role of internalization in the regulation of cAR1 function or, for that matter, in developmental systems in general. For this study, cAMP-induced cAR1 internalization was assessed by measuring (1) the reduction of cell surface binding sites for [ 3H]cAMP and (2) the redistribution of YFP-tagged receptors to the cell's interior, cAMP was found to induce little or no loss of ligand binding (LLB) in vegetative cells. However, the ability to induce LLB increased progressively over the initial 6 hrs of development, reaching ∼70% in cells undergoing aggregation. Despite these reductions in surface binding, detectable cAR1-YFP redistribution could be induced by cAMP only after the cells reached the mound stage (10 hrs) and was found to occur naturally by the ensuing slug stage (18 hrs). Site-directed substitution of a cluster of 5 serines in the receptor's cytoplasmic tail that was previously shown to be the principal site of cAMP-induced cAR1 phosphorylation impaired both LLB and receptor redistribution and furthermore resulted in mound-stage developmental arrest, suggesting that phosphorylation of cAR1 is a prerequisite for its internalization and that cAR1 internalization is required for post-aggregative development. To assess the involvement of clathrin mediated endocytosis, Dictyostelium cells lacking the clathrin light chain gene (clc-) or either of two dynamin genes were examined and found to be defective in LLB and, in the case of clc- cells, also cAR1 redistribution and turnover. Furthermore, cAR1 overexpression in clc- cells (like the serine mutant in wild-type cells) promoted developmental arrest in mounds. The mound-arrest phenotype was also recapitulated in a wild-type background by the specific expression of cAR1 in prestalk cells (but not prespore cells), suggesting that development depends critically on internalization and clearance of cAR1 from these cells. Persistent cAR1 expression following aggregation was found to be associated with aberrant expression of prestalk and prespore genes, which may adversely affect development in the prestalk cell lineage. The PI3 kinase-TORC2 signal transduction pathway, known to be important for Dictyostelium chemotaxis and internalization of yeast pheromone receptors, was examined using chemical inhibitors and null cells and found to be necessary for cAR1 internalization. In conclusion, cAR1 was shown to be similar to other GPCRs in that its internalization depends on phosphorylation of cytoplasmic domain serines, utilizes clathrin and dynamin, and involves the TORC2 complex. In addition, the findings presented here that cAR1 internalization is both developmentally regulated and required for normal development represent a novel regulatory paradigm that might pertain to other GPCRs known to play important roles in the development of humans and other metazoans. ^
