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131	Abundância de fungos entomopatogênicos da ordem Hypocreales e diversidade genética de Metarhizium spp. isolados de amostras de solo de áreas representativas de cinco biomas brasileiros / Abundance of entomopathogenic fungi of the order Hypocreales and genetic diversity of Metarhizium spp. isolated from soil samples of areas representative of five Brazilian biomes Zanardo, Ana Beatriz Riguetti 25 June 2015 (has links) Os fungos entomopatogênicos dos gêneros Metarhizium, Beauveria e Isaria (Ordem Hypocreales), são comumente encontrados em solo onde sobrevivem de maneira saprofítica ou como endofíticos do sistema radicular das plantas. Informações sobre a composição destas espécies bem como sua diversidade, distribuição e associação com diferentes tipos de cultivos e vegetação nativa são escassas no Brasil. O presente estudo foi desenvolvido para comparar a abundância de fungos entomopatogênicos e a diversidade genética de isolados de Metarhizium spp. em amostras de solo de cultivos anuais, perenes e vegetação nativa, em cinco estados brasileiros que representam os biomas Amazônia, Cerrado, Caatinga, Mata Atlântica e Pampa, em duas estações (seca e úmida) nos anos de 2012 e 2013. O isolamento dos fungos foi realizado com meio seletivo e \"Insect bait\" utilizando Galleria mellonella e Tenebrio molitor. Nos estudos de diversidade genética de Metarhizium spp. foram utilizadas sequências de DNA da região MzIGS3. Representantes dos haplótipos revelados nesta análise tiveram a região 5\'-TEF sequenciada para identificação específica. Fungos entomopatogênicos foram isolados de 86% das 1.056 amostras de solo sendo Metarhizium o gênero predominante (66% das amostras de solo), seguido por Beauveria (41,9%) e Isaria (10,8%). Em geral, as maiores densidades de fungos entomopatogênicos foram obtidas nos biomas Amazônia e Cerrado e as menores densidades detectadas no bioma Caatinga. Metarhizium spp. foi detectado em maior número de amostras de solo em vegetação nativa e cultivos anual e perene do Cerrado. A frequência de Isaria spp. foi baixa nas amostras de solo, sendo detectado em maior número de amostras nos solos com cultivos anuais e vegetação nativa na Amazônia e Caatinga. Metarhizium spp. foi geralmente encontrado em um maior número de amostras coletadas na estação úmida em comparação com as coletas da estação seca, por outro lado Beauveria spp. foi superior na estação seca. A diversidade dos isolados de Metarhizium spp. provenientes de áreas de vegetação nativa foi maior do que dos isolados de cultivos anuais e perenes. Seis linhagens foram encontradas neste estudo; M. robertsii, M. anisopliae, M. pingshaense e três espécies indeterminadas. M. robertsii foi a linhagem predominante (65% dos isolados) sendo encontrado em áreas com vegetação nativa e cultivos anual e perene dos cinco biomas. Metarhizium sp. indet. 1 apresentou a maior diversidade haplotípica dentre as linhagens estudadas. Uma nova linhagem, não caracterizada taxonomicamente, Metarhizium sp. indet. 3, foi encontrada predominantemente na Caatinga. Somente na Amazônia foram encontradas todas as linhagens. O conhecimento da composição das populações de fungos entomopatogênicos nativos bem como sobre a filogenia, diversidade e distribuição dos haplótipos de Metarhizium spp. em solos brasileiros, gerado neste estudo, poderá servir como subsídio para o desenvolvimento de estratégias de conservação e maximização do controle biológico natural de pragas. / Entomopathogenic fungi of the genera Metarhizium, Beauveria and Isaria (order Hypocreales) are associated to the soil where they survive saprofitically or as endophytes of the plants root system. Information on the species composition and its diversity, distribution and association of these fungi with different types of crops and native vegetation are scarce in Brazil. The present study was carried out to compare the abundance of entomopathogenic fungi and the genetic diversity of Metarhizium spp. Isolated from soil samples from annual and perennial crops and native vegetation in five Brazilian states that represent the biomes Amazon, Cerrado, Caatinga, Atlantic Forest and Pampa, in two seasons (wet and dry) in the years 2012 and 2013. The isolation of fungi was performed with selective medium and \"Insect bait\" using Galleria mellonella and Tenebrio molitor. DNA sequences of the region MzIGS3 were used in genetic diversity studies of Metarhizium spp. Representatives haplotypes revealed in the diversity analysis had the 5\'-TEF region sequenced for species identification. Entomopathogenic fungi were isolated from 86% of 1,056 soil samples and Metarhizium was the predominant genus (66% of soil samples), followed by Beauveria (41.9%) and Isaria (10.8%). In general, the highest densities of entomopathogenic fungi were obtained in the Amazon and Cerrado biomes and the lowest densities were detected in the Caatinga biome. Metarhizium spp. was detected in a greater number of soil samples from native vegetation and annual and perennial crops of Cerrado. The frequency of Isaria spp. was low in soil samples being detected in a greater number of soils with annual crops and native vegetation in the Amazon and Caatinga. Metarhizium spp. was usually found in a greater number of samples collected during the wet season compared to the collections in the dry season. On the other hand, Beauveria spp. was higher in the dry season. The diversity of isolates of Metarhizium spp. from areas of native vegetation was greater than that obtained from annual and perennial crops. Six lineages were found in this study; M. robertsii, M. anisopliae, M. pingshaense and three indeterminate species. M. robertsii was the predominant (65% of isolates) found in areas with native vegetation and in the annual and perennial crops of the five biomes. Metarhizium sp. indet. 1 showed the greatest haplotype diversity among the strains studied. A new strain, not characterized taxonomically, Metarhizium sp. indet. 3, was found predominantly in the Caatinga. Only in the Amazon, all lineages were found. The knowledge on species composition of entomopathogenic fungi as well as about phylogeny, diversity and distribution of haplotypes of Metarhizium spp. in Brazilian soils, generated in this study, may be useful for the development of strategies for conservation and maximization of natural biological control of pests. Beauveria Beauveria Isaria Isaria Análise filogenética Biological control Controle biológico Crops Cultivos agrícolas Entomopathogen Entomopatógeno Gene MzIGS3 Native vegetation Phylogenetic analysis Região intergênica MzIGS3 Vegetação nativa
132	Caracterização molecular de eritrovírus humano B19 isolados na região amazônica. / Molecular characterization of the human erythrovirus B19 in the amazon region. Freitas, Ronaldo Barros de 29 April 2008 (has links) Para avaliar a circulação e freqüência dos genótipos de eritrovírus na região amazônica, foi analisado um total de 487 amostras de soros/plasmas colhidas de pacientes apresentando sintomas e sinais clínicos sugestivos de infecção pelos eritrovírus. O ensaio imunoenzimático foi utilizado para detecção de anticorpos específicos para B19, das classes IgM/IgG, e a reação em cadeia da polimerase/semi-nested PCR para detecção do DNA. Das 487 amostras examinadas, 117 (24%) mostraram a presença do DNA dos eritrovírus, sendo todas as 117 foram posteriormente seqüenciadas e genotipadas. A maioria dos isolamentos foi classificada como genótipo 1 (91% das amostras) e 3b (9% ). Também observamos três diferentes grupos dentro do genótipo 1 (A1, A2, B). Conseqüentemente, estas linhagens de B19 introduzidas em Belém apresentaram uma elevada taxa de mudanças dos aminoácidos, decorrência da pressão seletiva, gerando reinfecções consecutivas em uma pequena rede de transmissão, metaforicamente comparada a uma \"panela de pressão evolutiva\". / To assess the circulation and relative frequency of erythrovirus genotypes in clinical samples from patients living in the Amazon region we screened a total of 487 samples from patients suffering from different clinical manifestations suggestive of erythrovirus infections. Enzyme-linked immunosorbent assay was used to detect B19-specific IgM/IgG antibodies and polymerase chain reaction/ semi-nested PCR for viral DNA detection. Of the 487 samples 117 (24%) were positive for the erythrovirus DNA and all 117 isolates were sequenced and genotyped analyzing a fragment of 476 bp of VP1 and VP2 gene sequences of the erythrovirus. The majority of isolates was classified as genotype 1 (91% of the samples) and 3b (9% of the samples). We also reported three different clusters (A1, A2, B) within genotype 1. Our analysis revealed a strikingly different pattern of evolutionary change for those viral lineages introduced in Belém, which exhibited a higher rate of nonsynonymous substitutions compared to those viruses sampled from other locations. Análise filogenética Clinical manifestations Eritrovírus B19 Erythrovirus B19 Erytrovirus evolution Evolução de eritrovírus Genótipos 1 e 3 Genotypes 1 and 3 Manifestações clínicas Natural selection Phylogenetic analysis Seleção natural
133	Cadeias estocásticas parcimoniosas com aplicações à classificação e filogenia das seqüências de proteínas. / Parsimonious stochastic chains with applications to classification and phylogeny of protein sequences. Leonardi, Florencia Graciela 19 January 2007 (has links) Nesta tese apresentamos alguns resultados teóricos e práticos da modelagem de seqüências simbólicas com cadeias estocásticas parcimoniosas. As cadeias estocásticas parcimoniosas, que incluem as cadeias estocásticas de memória variável, constituem uma generalização das cadeias de Markov de alcance fixo. As seqüências simbólicas às quais foram aplicadas as ferramentas desenvolvidas são as cadeias de aminoácidos. Primeiramente, introduzimos um novo algoritmo, chamado de SPST, para selecionar o modelo de cadeia estocástica parcimoniosa mais ajustado a uma amostra de seqüências. Em seguida, utilizamos esse algoritmo para estudar dois importantes problemas da genômica; a saber, a classificação de proteínas em famílias e o estudo da evolução das seqüências biológicas. Finalmente, estudamos a velocidade de convergência de algoritmos relacionados com a estimação de uma subclasse das cadeias estocásticas parcimoniosas, as cadeias estocásticas de memória variável. Assim, generalizamos um resultado prévio de velocidade exponencial de convergência para o algoritmo PST, no caso de cadeias de memória ilimitada. Além disso, obtemos um resultado de velocidade de convergência para uma versão generalizada do Critério da Informação Bayesiana (BIC), também conhecido como Critério de Schwarz. / In this thesis we present some theoretical and practical results, concerning symbolic sequence modeling with parsimonious stochastic chains. Parsimonious stochastic chains, which include variable memory stochastic chains, constitute a generalization of fixed order Markov chains. The symbolic sequences modeled with parsimonious stochastic chains were the sequences of amino acids. First, we introduce a new algorithm, called SPST, to select the model of parsimonious stochastic chain that fits better to a sample of sequences. Then, we use the SPST algorithm to study two important problems of genomics. These problems are the classification of proteins into families and the study of the evolution of biological sequences. Finally, we find upper bounds for the rate of convergence of some algorithms related with the estimation of a subclass of parsimonious stochastic chains; namely, the variable memory stochastic chains. In consequence, we generalize a previous result about the exponential rate of convergence of the PST algorithm, in the case of unbounded variable memory stochastic chains. On the other hand, we prove a result about the rate of convergence of a generalized version of the Bayesian Information Criterion (BIC), also known as Schwarz\' Criterion. análise filogenética de proteínas cadeias estocásticas parcimoniosas classificação de proteínas parsimonious stochastic chains phylogenetic analysis of proteins protein classification rate of convergence of algorithms
134	Variedade genética de vírus respiratório sincial humano em amostras do grupo B com inserção de 60 nucleotideos, colhidas em crianças atendidas no hospital universitário na cidade de São Paulo. / Genetic variability human respiratory syncytial virus in group B 60-nucleotide-duplication samples from children admitted in university hospital in São Paulo city. Carvalho, Ariane do Carmo Lins 07 April 2008 (has links) O vírus respiratório sincicial humano (HRSV) é o principal agente viral causador de doença respiratória em bebês e crianças em idade pré-escolar. A fim de estudar a variabilidade genética de HRSV, grupo B, com inserção de 60 nucleotídeos no gene G, selecionamos amostras de aspirado de nasofaringe de crianças menores de 5 anos de idade, com doença respiratória aguda, admitidas no hospital universitário da Universidade de São Paulo. Testamos 521 amostras, das quais 35,3% foram positivas para HRSV. A região G2 da glicoproteína G foi utilizada para genotipar essas amostras. Todas as amostras do grupo B apresentaram a inserção de 60 nucleotídeos no gene da proteína G, como descrito anteriormente em Buenos Aires, em 1999. As modificações de aminoácidos e nucleotídeos dessas amostras foram comparadas com outras amostras com inserção de 2001-2005. A seqüência de nucleotídeos duplicados foi a cópia exata dos 60 nucleotídeos precedentes em vírus mais antigos, mas as cópias do segmento duplicado acumularam substituições de nucleotídeos em vírus mais recentes. / Human respiratory syncytial virus (HRSV) is the leading viral cause of respiratory illness in infants and young children. In order to study the genetic variability of HRSV group B, with 60-nucleotide duplication in the gene G, we selected nasopharyngeal aspirates samples of children less than five years of age, with acute respiratory illness admitted in the university hospital of São Paulo (USP). We tested 521 samples and the HRSV-detection test positivity rate was 35.3%. The G2 region of glycoprotein G was used as genotyping default. All type B HRSV had a 60-nucleotide duplication in the attachment protein gene like previously described in Buenos Aires, in 1999. Changes in aminoacids and nucleotides in these samples were compaired with other samples with duplication from 2001-2005. The duplicated nucleotide sequence was an exact copy of the preceding 60 nucleotides in early viruses, but copies of the duplicated segment accumulated nucleotide substituions in more recent viruses. Análise filogenética G Glycoprotein G2 Region Genetic variability Glicoproteína G Human respiratory syncytial virus Phylogenetic analysis Região G2 Variabilidade genética Vírus respiratório sincicial humano
135	Uma nova abordagem para identificação da provável origem de genes exclusivos de bactérias / A new approach to identify the probable origin of bacteria exclusive genes Priscilla Koch Wagner 26 March 2018 (has links) A comparação de genomas, genes ou até sequências de nucleotídeos não condificantes é uma importante tarefa na qual a bioinformática pode ser aplicada, uma vez que ela auxiliar em diversas atividades, por exemplo, análises filogenéticas. Análise filogenética, por sua vez, busca analisar a relação evolutiva de cada espécie, considerando suas características genéticas. Esses processos e as técnicas que os implementam se baseiam em sequências de nucleotídeos sequenciadas e armazenadas em bancos de dados de genomas públicos. Com análise filogenética também é possível identificar possíveis origens de um gene. Essa tarefa é de grande importância, pois auxilia na identificação da origem de genes patogênicos, podendo auxiliar no combate e prevenção do surgimento de doenças. Um problema potencial dessas sequências é a possibilidade de haver erros nas anotações (marcações de sequências como genes). Esses erros são pouco explorados por pesquisadores atualmente. Outro tema pouco explorado é a análise filogenética de genes exclusivos, que são genes que se manifestam em apenas uma espécie, considerando um grupo de espécies próximas. A identificação de genes exclusivos de alguma espécie pode servir para a correta identificação de, por exemplo, a espécie que causa uma doença, de forma a permitir o uso do tratamento mais específico e adequado. A importância da descoberta de filogenias de genes exclusivos e a dificuldade de garantir a consistência nas anotações genéticas motivaram este trabalho, que teve como objetivo implementar ferramentas para interpretar dados de comparação genética, identificando potenciais erros em anotação de genes exclusivos e criando estratégias para identificar a origem desses genes. As origens de genes exclusivos exploradas neste trabalho envolvem a possibilidade dos genes exclusivos terem derivado de outras famílias de genes do próprio organismo, ou, os genes exclusivos se diferenciaram muito dos genes ancestrais. Essas hipóteses, juntamente com a hipótese da existência de erros de anotação, foram exploradas em experimentos utilizando as ferramentas desenvolvidas. Os experimentos visaram a analisar a aplicabilidade da estratégia desenvolvida. Foram utilizados genomas de bactérias do gênero Xanthomonas, que contém um grande grupo de bactérias que causam doenças em plantas. Os resultados obtidos demonstram que existe uma quantidade considerável de potenciais erros de anotação nos genomas considerados, provando a hipótese de que a inconsistência nas anotações genômicas possui grande influência para a dificuldade na identificação de filogenias (tanto de genes exclusivos como para não exclusivos). Os resultados também demonstraram que boa parte dos genes exclusivos possivelmente se originaram de outras famílias de genes do próprio genoma. Ou ainda, que esses genes sofreram modificações em relação aos genes ancestrais, mas ainda possuem certas semelhanças com sequências de nucleotídeos que não codificam genes em outras espécies mais distantes. Por fim, a estratégia desenvolvida se mostrou útil na análise filogenética das bactérias estudadas, sendo este um forte indício de que a mesma abordagem pode ser utilizada para problemas similares com outras espécies de seres vivos / Comparison of genomes, genes or even non-coding nucleotide sequences is an important task in which bioinformatics can be applied, since it allows the application of phylogenetic analyses. Phylogenetic analysis, in its turn, seeks to analyze the evolutionary relation of each species, considering its genetic characteristics. These processes and the techniques that implement them are based on nucleotide sequences sequenced and stores in databases of public genomes. With phylogenetic analysis it is also possible to identify possible origins of a gene. This task has a great importance, because it allows the identification of the origin of pathogenic genes, which may help to combat or prevent deseases. A potencial problem of these sequences is the possibility of having annotation errors (sequences marking as genes). These errors are little explored by researchers nowadays. Another unexplored topic is the phylogenetic analysis of exclusive genes, which are genes thaht manifest in only one species, considering a group of nearby species. The identification of exclusive genes of a species may serve to correctly identify, for example, a desease, in order to allow the use of a more especific and appropriate treatment. The importance of discovering phylogenies of exclusive genes and the difficulty of guaranteeing the consistency of genetic annotations motivated this work, whose objective was to implement tools to interpret data of genetic comparison, identifying annotation errors in exclusive genes and creating strategies to identify the origin of these genes.The origins of exclusive genes explored in this work involve the possibility of the exclusive genes have derived of other gene families of the organism itself, or, the exclusive genes differed a lot from the ancestral genes. Theses hypotheses, with the hypotesis of the existance of annotation errors, were explored in experiments using the developed tools. The experiments aimed to analyse the applicability of the developed strategy. Genomes of bacteria of the genus Xanthomonas were used, which contains a large group of bacteria that cause diseases in plants. The results show that there is a considerable amount of annotation errors on the genomes, proving the hypothesis that the inconsistency in genomic annotations has a great influence on the difficulty in identifying phylogenies (both exclusive and non-exclusive genes). The results also show that much of exclusive genes possibly originated from other gene families of the genome itself. Furthermore, these genes may have sufferedmodifications in relation to the ancestral genes, but still have certain similarities with nucleotide sequences that don\'t encode genes in other more distant species. Finally, the strategy developed proved useful on phylogenetic analysis of the studied bacteria, which is a strong indication that the same approach can be used for similar problems with other species of living beings Análise filogenética Anotação de genes Bioinformática Comparação de genes Filogenia Genes exclusivos Genômica Bioinformatics Exclusive genes Gene comparison Genes annotation Genomic Phylogenetic analysis Phylogeny
136	Biological and Molecular Characteristics of Microorganism-Stimulated Defence Response in <i>Lycopersicon esculentum</i> –L Attitalla, Idress H. January 2004 (has links) <p>Microorganisms, including two fungi, <i>Phytophthora cryptogea</i> and <i>Fusarium oxysporum</i> strain Fo-(IMI 386351), and one bacterium, <i>Pesudomonas</i> sp. strain MF30, were tested for their abilities to stimulate plant defence responses in tomato (<i>Lycopersicon esculentum</i> –L.) and to serve as effective biocontrol agents (<b>Bs</b>). The study included <i>in vivo</i> and <i>in vitro</i> characterization of biological attributes of the microorganisms, pertaining to their abilities to stimulate plant immunity against a fungal pathogen, <i>Fusarium oxysporum</i> f. sp. <i>lycopersici</i> (Fol), the causal agent of tomato wilt disease. Using <i>Lycopersicon esculentum</i> –L. as a model plant for examining some fundamental elements of the plant-microorganism interaction, the study reveals and clarifies some aspects of the close association and the complexity of such systems.</p><p>For each <b>B</b>, the results revealed a <b>B</b>-distinct plant-microorganism interaction, which included systemic induced resistance (SIR). A phylogenetic analyses of the partial sequences of two Fo-(IMI 386351) genes, a mitochondrial small subunit ribosomal DNA (mtSSU rDNA) and the nuclear translation elongation factor 1α (EF-1α), provided phylogenetic trees confirming that Fo-(IMI 386351) might be a member of Fol or of <i>F. oxysporum</i> f. sp. <i>melonis</i>, which have polyphyletic evolutionary origins. RFLP analysis (mtDNA), suggested that Fo-(IMI 386351) probably belongs to Fol. For routine and accurate differentiation between two morphologically indistinguishable <i>F. oxysporum formae speciales</i> strains, <i>F. oxysporum</i> f. sp. <i>lycopersici</i> and <i>F. oxysporum</i> f. sp. <i>radicis-lycopersici</i>, a molecular method (mtDNA RFLP analysis) was developed, and its usefulness for such differentiation was compared with that of two other methods: isozyme analysis and an osmotic method, revealed with high performance liquid chromatography (HPLC). The HPLC-spectra of Fo-(IMI 386351) had an extra peak for the two tested fractions, indicating that activation of the observed plant defence mechanism could have been at least partially the result of one of the products of the eliciting microbe. Preliminary results obtained by nuclear magnetic resonance spectrometry of those fractions suggest that the extra peak probably represents an oligosaccharide, which may have acted as a mobile signal and triggered the plant defence mechanisms.</p><p>We concluded that (1) our three tested microorganisms are able to stimulate plant defence mechanisms by triggering SIR (plant immunity), (2) the complexity and elaborateness of evolved plant-microbe interactions involving plant defence can, at least in some cases, be observed and studied in the laboratory, and (3) molecular tools can be a powerful means for identifying fungal strains and for clarifying their taxonomical relationships.</p> Biology Phytophthora cryptogea Fusarium oxysporum strain IMI 386351 Pseudomonas sp. strain MF30 plant defence phylogenetic analysis differentiation methods Biologi Biology Biologi
137	Reticulate Evolution in Diphasiastrum (Lycopodiaceae) Aagaard, Sunniva Margrethe Due January 2009 (has links) In this thesis relationships and the occurrence of reticulate evolutionary events in the club moss genus Diphasiastrum are investigated. Diphasiastrum is initially established as a monophyletic group within Lycopodiaceae using non recombinant chloroplast sequence data. Support is obtained for eight distinct parental lineages in Diphasiastrum, and relationships among the putative parent taxa in the hypothesized hybrid complexes; D. alpinum, D. complanatum, D. digitatum, D. multispicatum, D. sitchense, D. tristachyum and D. veitchii are presented. Feulgen DNA image densitometry data and sequence data obtained from three nuclear regions, RPB2, LEAFY and LAMB4, were used to infer the origins of three different taxa confirmed to be allopolyploid; D. zanclophyllum from South Africa, D. wightianum from Malaysia and an undescribed taxon from China. The two Asian polyploids have originated from two different hybrid combinations, D. multispicatum x D. veitchii and D. tristachyum x D. veitchii. Diphasiastrum zanclophyllum originates from a cross between D. digitatum and an unidentified diploid taxon. The occurrence of three homoploid hybrid combinations commonly recognized in Europe, D. alpinum x D. complanatum, D. alpinum x D. tristachyum and D. complanatum x D. tristachyum, are verified using the same three nuclear regions. Two of the three hybrid combinations are also shown to have originated from reciprocal crosses. Admixture analyses performed on an extended, dataset similarly identified predominately F1 hybrids and backcrosses. The observations and common recognition of hybrid species in the included populations are hence most likely due to frequent observations of neohybrids in hybrid zones. Reticulate patterns are, however, prominent in the presented dataset. Hence future studies addressing evolutionary and ecological questions in Diphasiastrum should emphasize the impact of gene flow between parent lineages rather than speciation as the result of hybridization. admixture analysis Bayesian clustering Diphasiastrum Feulgen DNA image densitometry homoploid hybridization Lycopodiaceae phylogenetic analysis polyploidy reticulate evolution Systematics and phylogenetics Systematik och fylogeni
138	Κλωνοποίηση και χαρακτηρισμός των γονιδίων clusterin-1 και clusterin-2 στην ιριδίζουσα πέστροφα (Oncorhynchus mykiss irideus Λόντου, Αδαμαντία 18 February 2009 (has links) Το σύστημα του Συμπληρώματος απαρτίζεται από μια ομάδα πρωτεϊνών του πλάσματος και κυτταρικών υποδοχέων που παίζουν σημαντικό ρόλο στην άμυνα του ξενιστή μέσω της αλληλεπίδρασής τους τόσο με συστατικά της φυσικής, όσο και της προσαρμοστικής ανοσίας. Παράλληλα, μια ομάδα από ρυθμιστικές πρωτεΐνες του πλάσματος και της κυτταρικής μεμβράνης προστατεύει τα κύτταρα του ξενιστή από την αυτόλογη δράση του Συμπληρώματος. Η σύνθεση του τελικού λυτικού συμπλόκου MAC, που οδηγεί σε κυτταρόλυση, ρυθμίζεται από τις ρυθμιστικές πρωτεΐνες : CD59, vitronectin και clusterin. Μέχρι σήμερα οι ρυθμιστικές πρωτεΐνες της λυτικής οδού του Συμλπηρώματος έχουν ελάχιστα χαρακτηριστεί σε σπονδυλωτά πέραν των θηλαστικών. Οι οστεϊχθύες αποτελούν ένα σημαντικό μοντέλο, καθώς είναι οι μόνοι οργανισμοί που εμφανίζουν ένα πλήρως αναπτυγμένο και διευρυμένο σύστημα συμπληρώματος, μέσω διπλασιασμού πολλών γονιδίων του Συμπληρώματος. Προκειμένου να μελετηθεί η παρουσία και η φυλογενετική εξέλιξη του ρυθμιστικού μορίου της clusterin, το οποίο παρεμποδίζει την πρόσδεση του συμπλόκου C5b-7 στην μεμβράνη του κυττάρου-στόχου, με αποτέλεσμα την αναστολή της κυτταρόλυσης, έγινε κλωνοποίηση και χαρακτηρισμός του γονιδίου της clusterin στην ιριδίζουσα πέστροφα (Oncorhynchus mykiss irideus). Απομονώθηκαν δύο ισομορφές του γονιδίου της clusterin, clusterin-1 (TCLU-1) και clusterin-2 (TCLU-2) από cDNA βιβλιοθήκη ήπατος πέστροφας, με χρήση ειδικών ολιγονουκλεοτιδίων. Οι προκύπτουσες αμινοξικές αλληλουχίες των ισομορφών clusterin-1 και clusterin-2 παρουσιάζουν 89% ταυτοσημία μεταξύ τους, καθώς και 40 και 38% ταυτοσημία με την clusterin του ανθρώπου, αντίστοιχα. Η μοριακή δομή των συναγομένων πρωτεϊνών αντιστοιχεί στην α΄ αλυσίδα της clusterin και ομοιάζει με εκείνη των θηλαστικών. Γονιδιωματικοί κλώνοι απομονώθηκαν και για τις δύο ισομορφές και μελετήθηκε η οργάνωση εξωνίων-εσωνίων των αντίστοιχων γονιδίων. Η οργάνωση των γονιδίων clusterin-1 και clusterin-2, με τα μέχρι στιγμής δεδομένα, δείχνει αντιστοιχία εξωνίων - εσωνίων με το γονίδιο της clusterin του ανθρώπου, στην περιοχή ομολογίας τους. Ως προς το μέγεθος, τα αντίστοιχα εξώνια φαίνονται συντηρημένα, ενώ τα εσώνια ποικίλουν, εμφανίζοντας μικρότερο μέγεθος συγκριτικά με εκείνα της clusterin του ανθρώπου. Ανάλυση κατά Southern έδειξε ότι η clusterin απαντάται σε δύο τουλάχιστον αντίγραφα στο γονιδίωμα της πέστροφας. Τα γονίδια clusterin-1 και clusterin-2 εμφανίζουν διαφορική έκφραση στο επίπεδο του mRNA σε διάφορους ιστούς πέστροφας, όπως διαπιστώθηκε με RT-PCR. Παρατηρήθηκαν υψηλά επίπεδα mRNA του γονιδίου TCLU-1 στο ήπαρ και στο σπλήνα, ενώ η έκφραση του γονιδίου TCLU-2 παρατηρήθηκε αυξημένη στην καρδιά και στο έντερο, χαμηλή στο ήπαρ και στο σπλήνα δεν ανιχνεύτηκε. Τέλος, η φυλογενετική ανάλυση των πρωτεϊνών της clusterin από διάφορους οργανισμούς εμφάνισε την TCLU-1 να ομαδοποιείται με την TCLU-2, ενώ η όλη υποομάδα προηγείται φυλογενετικά των ορθόλογων πρωτεϊνών του pufferfish και του zebrafish και αυτές των ορθόλογων των άλλων οργανισμών που αναλύθηκαν. Συμπερασματικά, το γονίδιο της clusterin ανιχνεύεται στην ιριδίζουσα πέστροφα, σε δύο τουλάχιστον ισομορφές και παρουσιάζει ομολογία με την clusterin του ανθρώπου, τόσο στο επίπεδο οργάνωσης του γονιδίου, όσο και στο επίπεδο της αμινοξικής αλληλουχίας και της προκύπτουσας δομής. Η παρουσία ισομορφών από εναλλακτικό μάτισμα που ισχύει στην clusterin του άνθρωπου δεν έγινε δυνατόν να πιστοποιηθεί. / The complement system consists of a group of plasma proteins and cell receptors that play a critical role in host defense, by interacting with components of both innate and adaptive immunity. Α group of plasma and cell membrane regulatory proteins protects the host cells from the autologous complement activation. The conformation of the lytic complex MAC, which results to the cytolysis, is regulated by the regulatory proteins: CD59, clusterin και vitronectin. Up to date, the regulatory proteins of MAC complex are not well characterized in low vertebrates. Bony fish represent an attractive model for studies on complement system, as they are, the only organisms that reveal a completely developed and extended system, via duplication and functional differentiation of many genes of the complement system. In order to elucidate the presence and the evolution of the clusterin regulatory molecule, which impedes the binding of C5b-7 complex to the membrane of the target cell, inhibiting cytolysis, we report here the cloning and characterization of the clusterin gene in rainbow trout (Oncorhynchus mykiss irideus). Two isoforms of clusterin gene, clusterin-1 (TCLU-1) and clusterin-2 (TCLU-2) were isolated from a trout liver cDNA library, by PCR using specific oligonoucleotides. The deduced amino-acid sequences of the isoforms TCLU-1 and TCLU-2 show 89% identity to each other, as well as 40 and 38% identity to human clusterin, respectively. The domain structure of the deduced proteins corresponds to the α΄ chain of clusterin and resembles to that of mammalian. Genomic clones were isolated for the two isoforms and intron-exon organization of corresponding genes was clarified. The organization of the clusterin genes TCLU-1 and TCLU-2, as the partial data have shown, is in line with the intron-exon organization of the human clusterin gene, at their homology region. Regarding the length, the corresponding exons seem to be conserved, but the introns in trout clusterin genes are shorter than human clusterin. Southern blot analysis has shown that clusterin can be found as two copies at least, in the trout genome. Also, the genes TCLU-1 and TCLU-2 reveal differential expression, at mRNA level, among several trout tissues, as it was found out by RT-PCR analysis. High levels of TCLU-1 mRNA are detected in liver and spleen. On the other hand, TCLU-2 is expressed mainly in heart and intestine, while is not detected any expression in spleen. Finally, the phylogenetic analysis of the clusterin proteins from various organisms, showed grouping of TCLU-1 and TCLU-2, while this subgroup precedes evolutionary the clusterin orthologs of pufferfish, zebrafish and the other examined organisms, afterwards. Conclusively, the clusterin gene in rainbow trout is detected as two isoforms and shows homology with human clusterin, not only at the level of gene organization, but also at the level of amino-acid sequence and domain architecture. The alternative splicing of human clusterin was not able to be certified in trout. Κλαστερίνη Κλωνοποίηση Ιριδίζουσα πέστροφα Συμπλήρωμα Έκφραση mRNA Εξέλιξη Φυλογενετική ανάλυση 599.019 245 4 Clusterin Cloning Rainbow trout Complement mRNA expression Evolution Phylogenetic analysis
139	Biological and Molecular Characteristics of Microorganism-Stimulated Defence Response in Lycopersicon esculentum –L Attitalla, Idress H. January 2004 (has links) Microorganisms, including two fungi, Phytophthora cryptogea and Fusarium oxysporum strain Fo-(IMI 386351), and one bacterium, Pesudomonas sp. strain MF30, were tested for their abilities to stimulate plant defence responses in tomato (Lycopersicon esculentum –L.) and to serve as effective biocontrol agents (Bs). The study included in vivo and in vitro characterization of biological attributes of the microorganisms, pertaining to their abilities to stimulate plant immunity against a fungal pathogen, Fusarium oxysporum f. sp. lycopersici (Fol), the causal agent of tomato wilt disease. Using Lycopersicon esculentum –L. as a model plant for examining some fundamental elements of the plant-microorganism interaction, the study reveals and clarifies some aspects of the close association and the complexity of such systems. For each B, the results revealed a B-distinct plant-microorganism interaction, which included systemic induced resistance (SIR). A phylogenetic analyses of the partial sequences of two Fo-(IMI 386351) genes, a mitochondrial small subunit ribosomal DNA (mtSSU rDNA) and the nuclear translation elongation factor 1α (EF-1α), provided phylogenetic trees confirming that Fo-(IMI 386351) might be a member of Fol or of F. oxysporum f. sp. melonis, which have polyphyletic evolutionary origins. RFLP analysis (mtDNA), suggested that Fo-(IMI 386351) probably belongs to Fol. For routine and accurate differentiation between two morphologically indistinguishable F. oxysporum formae speciales strains, F. oxysporum f. sp. lycopersici and F. oxysporum f. sp. radicis-lycopersici, a molecular method (mtDNA RFLP analysis) was developed, and its usefulness for such differentiation was compared with that of two other methods: isozyme analysis and an osmotic method, revealed with high performance liquid chromatography (HPLC). The HPLC-spectra of Fo-(IMI 386351) had an extra peak for the two tested fractions, indicating that activation of the observed plant defence mechanism could have been at least partially the result of one of the products of the eliciting microbe. Preliminary results obtained by nuclear magnetic resonance spectrometry of those fractions suggest that the extra peak probably represents an oligosaccharide, which may have acted as a mobile signal and triggered the plant defence mechanisms. We concluded that (1) our three tested microorganisms are able to stimulate plant defence mechanisms by triggering SIR (plant immunity), (2) the complexity and elaborateness of evolved plant-microbe interactions involving plant defence can, at least in some cases, be observed and studied in the laboratory, and (3) molecular tools can be a powerful means for identifying fungal strains and for clarifying their taxonomical relationships. Biology Phytophthora cryptogea Fusarium oxysporum strain IMI 386351 Pseudomonas sp. strain MF30 plant defence phylogenetic analysis differentiation methods Biologi Biology Biologi
140	Molecular Strategies in the Analysis of the Porcine Genome / Molekulargenetische Strategien zur Analyse des Schweinegenoms Chen, Kefei 05 February 2004 (has links) No description available. Agricultural Sciences Schwein PGK2-Gen Phosphoglycerat-Kinase Männliche Fruchtbarkeit Mikrosatellitenentwicklung Phylogenetische Studien 630 Landwirtschaft Veterinärmedizin Porcine PGK2 Gene Phosphoglycerate Kinase Male Fertility Microsatellite Isolation Phylogenetic Analysis 48.64

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