184 research outputs found

    A lattice polymer study of DNA renaturation dynamics

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    DNA renaturation is the recombination of two complementary single strands to form a double helix. It is experimentally known that renaturation proceeds through the formation of a double-stranded nucleus of several base pairs (the rate limiting step) followed by a much faster zippering. We consider a lattice polymer model undergoing Rouse dynamics and focus on the nucleation of two diffusing strands. We study numerically the dependence of various nucleation rates on the strand lengths and on an additional local nucleation barrier. When the local barrier is sufficiently high, all renaturation rates considered scale with the length as predicted by Kramers' rate theory and are also in agreement with experiments: their scaling behavior is governed by exponents describing equilibrium properties of polymers. When the local barrier is lowered, renaturation occurs in a regime of genuine non-equilibrium behavior and the scaling deviates from the rate theory prediction

    Breakdown of thermodynamic equilibrium for DNA hybridization in microarrays

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    Test experiments of hybridization in DNA microarrays show systematic deviations from the equilibrium isotherms. We argue that these deviations are due to the presence of a partially hybridized long-lived state, which we include in a kinetic model. Experiments confirm the model predictions for the intensity vs free-energy behavior. The existence of slow relaxation phenomena has important consequences for the specificity of microarrays as devices for the detection of a target sequence from a complex mixture of nucleic acids

    Characterization of a novel Holospora-like symbiont from Frontonia (Ciliophora, Oligohymenophorea)

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    The existence of symbiotic relationships between prokaryotes and ciliate protozoa is known from over a century. Most studies concerned obligatory mutualistic symbiosis, whereas there is little knowledge about facultative non-mutualistic symbiotic relationships, mainly because these associations can be spatially and temporally variable in natural populations and are especially difficult to maintain in lab conditions. Nevertheless, they seem to be more widespread among ciliates than so far supposed. A research project was recently started in order to get data about such kind of association in ciliate populations living in a coastal brackish environment. During this study, we observed some individuals from a population of Frontonia sp. (Oligohymenophorea, Peniculia) showing roundish macronuclei instead of ellipsoidal ones. Observation at DIC microscope revealed the presence of some relatively large spindle-shaped objects in all macronuclei. According to the general shape and morphological features, the identification of these objects as Holospora infectious forms was hypothesized. The genus Holospora (Alphaproteobacteria, Rickettsiales) comprises bacterial endosymbionts, which are resident in the nuclear apparatus of ciliates belonging to the genus Paramecium (Oligohymenophorea, Peniculia). Their life cycle presents two different forms: a large infectious form and a smaller reproductive form. Experiments of in situ hybridization using a genus-specific probe confirmed the identification of the observed endonuclear objects as Holospora infectious forms; it made also possible to observe even the smaller reproductive forms in macronuclei that were not clearly visible at DIC observation. To further characterize this symbiont, bacterial DNA was extracted from a population of infected Frontonia sp. cells. The 16S rRNA gene sequence was obtained by touchdown PCR reaction with a-proteobacteria- specific primers and direct sequencing of reaction product. The new sequence shows a similarity value of about 95% with that of H. obtusa. Indeed, analysis of phylogenetic relationships revealed that the two sequences are firmly associated. Molecular data obtained up to now suggest the belonging of this organism to a novel species of Holospora

    Fractional Brownian motion and the critical dynamics of zipping polymers

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    We consider two complementary polymer strands of length L attached by a common-end monomer. The two strands bind through complementary monomers and at low temperatures form a double-stranded conformation (zipping), while at high temperature they dissociate (unzipping). This is a simple model of DNA (or RNA) hairpin formation. Here we investigate the dynamics of the strands at the equilibrium critical temperature T = T-c using Monte Carlo Rouse dynamics. We find that the dynamics is anomalous, with a characteristic time scaling as tau similar to L-2.26(2), exceeding the Rouse time similar to L-2.18. We investigate the probability distribution function, velocity autocorrelation function, survival probability, and boundary behavior of the underlying stochastic process. These quantities scale as expected from a fractional Brownian motion with a Hurst exponent H = 0.44(1). We discuss similarities to and differences from unbiased polymer translocation

    Betaproteobacterial symbionts of the ciliate Euplotes: origin and tangled evolutionary path of an obligate microbial association.

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    The Polynucleobacter-Euplotes association is an obligatory symbiotic system between a monophyletic group of ciliate species belonging to the genus Euplotes and bacteria of the species Polynucleobacter necessarius (Betaproteobacteria). Both organisms are unable to survive independently. Several studies revealed the existence of free-living populations of Polynucleobacter bacteria which are phylogenetically closely related to the endosymbiotic ones, but never share associations with Euplotes in the natural environment. Hence, following the most parsimonious explanation on the origin of the association, this symbiosis should represent a synapomorphic character for the hosts’ clade. Nevertheless, phylogenetic analyses performed on an increased number of strains here presented suggest that Euplotes species, during their evolution, recruited Polynucleobacter bacteria as symbionts more than once. Moreover, in three cases, we observed different bacteria as obligate symbionts. These symbionts are the first characterized representatives of a phylogenetic lineage branching in a basal position with respect to the genus Polynucleobacter. The hypothesis that the original obligate symbionts belonged to this newly discovered clade, and that, only subsequently, in most cases they have been replaced by Polynucleobacter bacteria recruited from the environment is proposed and discussed. The evolutionary path of this association seems anyway to have been more complex than so far supposed

    A new obligate bacterial symbiont colonizing the ciliate Euplotes in brackish and freshwater: "Candidatus Protistobacter heckmanni"

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    A monophyletic group of freshwater and brackish ciliate species belonging to the genus Euplotes is known to harbor bacterial endosymbionts of the class Betaproteobacteria permanently in the natural environment. One or other of 2 different species of bacteria have been shown to be present: the obligate symbiont Polynucleobacter necessarius or a recently described betaproteobacterium. While the association between P. necessarius and its Euplotes hosts has been well studied in the past, knowledge about the relationship between the newly discovered symbiont and its Euplotes hosts is still very poor. Here we present the SSUrRNA gene characterization of both host and symbiont for an additional brackish-water population of Euplotes hosting the newly discovered symbiont. We also provide the symbiont genome size determination and ultrastructural description. Attempts to cultivate the new symbiont outside its host, using many different methods, failed. This result indicates that, as in the case of the symbiotic P. necessarius, we are probably dealing with an obligate symbiont, unable to grow outside the cytoplasm of its natural host. On the basis of the results obtained we propose the new symbiont as a candidate new species with the name of ‘Candidatus Protistobacter heckmanni’, according to the current rules of prokaryotic nomenclature

    Uma contribuição para a reflexão sobre a didática na história do ensino superior no Brasil

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    Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro Tecnológico. Programa de Pós-Graduação em Engenharia de ProduçãoDesde os tempos coloniais, até a década de 30 do século passado, o Brasil não coutou com universidades dignas deste nome. Mesmo a partir daí, o modelo que se foi impondo é o das escolas superiores isoladas, profissionais, criadas separadamente, e por injunções políticas imediatas e nem sempre preocupadas com as reais necessidades da sociedade. Tais universidades souberam romper o isolamento medieval ao unir o mundo das idéias com o mundo das doutrinas. A sociedade da Era da Informação e da Informatização vivencia uma nova estruturação social e desafia o Ensino Superior e a didática do Magistério Superior. No âmbito destas questões foi desenvolvido este trabalho de pesquisa apresentando a Evolução do Ensino Superior no Brasil, a Didática na atualização do Ensino Superior e a Didática e o Professor de Ensino Superior, complementado com uma pesquisa de campo que envolveu 50 professores universitários sobre a relevância da didática na formação de professore

    Planejamento Estratégico em Ciclos de Melhoria Contínua

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    Este artigo propõe a estruturação do processo de planejamento estratégico em ciclos de melhoria contínua a fim de torná-lo uma prática permanente de gestão e de aprendizagem organizacional em nossas Universidade
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