999 resultados para DNA CLEAVAGE
Resumo:
Biscationic amidines bind in the DNA minor groove and present biological activity against a range of infectious diseases. Two new biscationic compounds (bis-α,ω-S-thioureido, amino and sulfide analogues) were synthesized in good yields and fully characterized, and their interaction with DNA was also investigated. Isothermal titration calorimetry (ITC) was used to measure the thermodynamic properties of binding interactions between DNA and these ligands. A double stranded calf thymus DNA immobilized on an electrode surface was used to study the possible DNA-interacting abilities of these compounds towards dsDNA in situ. A remarkable interaction of these compounds with DNA was demonstrated and their potential application as anticancer agents was furthered.
Resumo:
Our study reports the extraction and isolation of a new phaeophytin derivative 15¹-hydroxy-(15¹-S)-porphyrinolactone, designated anamariaine (1) herein, isolated from the chloroform fraction of aerial parts of Thyrsacanthus ramosissimus Moric. along with the known 15¹-ethoxy-(15¹-S)-porphyrinolactone (2). These compounds were identified by usual spectroscopic methods. Both compounds were subjected to in vitro (inhibitory activity) tests by means of supercoiled DNA relaxation techniques and were shown to display inhibitory activity against human DNA topoisomerase II-α at 50 µM. Interconversion of these two pigments under the mild conditions of the isolation techniques should be highly unlikely but cannot be entirely ruled out.
Resumo:
Seven natural neolignans isolated from Licaria chrysophylla and Licaria aurea along with five semisynthetic derivatives were tested for their inhibitory action on DNA-topoisomerase by relaxation assays on pBR322 plasmid DNA. All compounds tested showed strong inhibition at a concentration of 100 µM, while none showed activity between 5 and 70 µM. These results indicate that no obvious correlation can be derived between the structure of these compounds and their inhibitory effect on the DNA relaxation activity of topoisomerase II. This is the first report on DNA topoisomerase II inhibitors from Licaria chrysophylla and Licaria aurea leading to the identification of lignoids as topoisomerase II-α inhibitors.
Resumo:
Métodos moleculares têm sido utilizados para caracterizar a diversidade entre isolados de Fusarium spp. patogênicos e não patogênicos a uma cultura e, para determinar relações genéticas entre formae speciales. Testes de patogenicidade realizados em soja (Glycine max) e feijoeiro (Phaseolus vulgaris) com 17 isolados de Fusarium solani não demonstraram especificidade de hospedeiros. Utilizou-se a técnica ARDRA (Amplified Ribosomal DNA Restriction Analysis) para analisar a região ITS1 - 5,8S rDNA - ITS2, amplificada com os primers ITS5 e ITS4. Os produtos amplificados foram digeridos com as enzimas de restrição Hae III e Msp I. Os padrões de bandas gerados pela digestão com a enzima Hae III permitiram diferenciar três grupos entre os isolados de F. solani, sendo um grupo específico para isolados de F. solani f. sp. phaseoli com 100% de similaridade entre os 11 isolados. Entre os isolados de F. solani f. sp glycines foram observados dois padrões distintos de restrição. A técnica de ARDRA utilizando a enzima Hae III apresenta, portanto, potencial para utilização como um marcador para diferenciação entre as formae specialesphaseoli e glycines, dentro do complexo F. solani.
Resumo:
A produção de massa micelial é o primeiro passo para obter amostras de DNA de qualidade e quantidade suficiente para análises moleculares. Neste trabalho, objetivou-se analisar a quantidade e a qualidade do DNA de Crinipellis perniciosa extraído a partir de massa micelial obtida em quatro meios de cultura. Foi avaliado o peso de micélio liofilizado produzido nos seguintes meios de cultura: 1. extrato de levedura (2,5%); 2. extrato de malte (2,5%); 3. BD (batata 20% e dextrose 2%) e 4. extrato de malte + BD (50% de cada meio). O crescimento micelial foi iniciado a partir de um disco de micélio colocado no centro de placas de Petri de 90 mm contendo o meio testado e mantidas a 25 ºC e fotoperíodo de 12 h, por dez dias. Foi utilizado o DIC com dez repetições. O micélio produzido foi liofilizado e o DNA extraído utilizando-se o método do SDS com a desproteinização feita com ou sem fenol. A pureza do DNA baseada na relação A260/A280 e a integridade em gel de agarose 0,8% foram analisadas. A quantidade de micélio produzida nos meios de cultura 1 e 4 foi maior do que nos meios 2 e 3. O DNA extraído a partir de micélio produzido nos meios 2 e 3 apresentou maior integridade, obtendo-se produtos de amplificação mais nítidos. A desproteinização com fenol possibilitou a extração de DNA mais puro. Porém, DNA de ótima qualidade e em quantidade suficiente pode ser extraído a partir de micélio produzido em meios baratos como o BD, sem a necessidade da desproteinização com fenol.
Resumo:
Using PCR-based assays with specific primers for amplification of the ribosomal DNA intergenic spacer region (IGS) and a portion of the mitochondrial DNA small subunit ribosomal RNA gene (mtDNA SSU rRNA), the genetic variability among Verticillium dahliae isolates from olive (Olea europaea) and other host species from Argentina and Brazil was estimated. The derived UPGMA-generated phenograms based upon the restriction fingerprinting data of rDNA IGS products revealed genetic differences, correlating with the host of origin. Isolates infecting olive genetically distinct from those from cocoa (Theobroma cacao) and sunflower (Helianthus annuus). Digestion of mitochondrial DNA SSU rRNA PCR products revealed less variability, distinguishing only one isolate from sunflower. Ribosomal DNA ITS restriction patterns were identical for all isolates of V. dahliae, irrespective of host of origin. These preliminary results may have relevance for Verticillium wilt control practices, possibly reflecting a different evolutionary origin, or reproductive isolation of the pathogen in olive, distinct from populations of other hosts.
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Reverse transcriptase (RT) sequence analysis is an important technique used to detect the presence of transposable elements in a genome. Putative RT sequences were analyzed in the genome of the pathogenic fungus C. perniciosa, the causal agent of witches' broom disease of cocoa. A 394 bp fragment was amplified from genomic DNA of different isolates of C. perniciosa belonging to C-, L-, and S-biotypes and collected from various geographical areas. The cleavage of PCR products with restriction enzymes and the sequencing of various RT fragments indicated the presence of several sequences showing transition events (G:C to A:T). Southern blot analysis revealed high copy numbers of RT signals, forming different patterns among C-, S-, and L-biotype isolates. Sequence comparisons of the predicted RT peptide indicate a close relationship with the RT protein from thegypsy family of LTR-retrotransposons. The possible role of these retrotransposons in generating genetic variability in the homothallic C. perniciosa is discussed.
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This paper brings an active and provocative area of current research. It describes the investigation of electron transfer (ET) chemistry in general and ET reactions results in DNA in particular. Two DNA intercalating molecules were used: Ethidium Bromide as the donor (D) and Methyl-Viologen as the acceptor (A), the former intercalated between DNA bases and the latter in its surface. Using the Perrin model and fluorescence quenching measurements the distance of electron migration, herein considered to be the linear spacing between donor and acceptor molecule along the DNA molecule, was obtained. A value of 22.6 (± 1.1) angstroms for the distance and a number of 6.6 base pairs between donor and acceptor were found. In current literature the values found were 26 angstroms and almost 8 base pairs. DNA electron transfer is considered to be mediated by through-space interactions between the p-electron-containing base pairs.
Resumo:
We explore a DNA statistical model to obtain information about the behavior of the thermodynamics quantities. Special attention is given to the thermal denaturation of this macromolecule.
Resumo:
Desenvolveu-se um método rápido para extração de DNA de bactérias, que ao contrário de outros métodos, não requer o uso de enzimas, como lisozima e proteinase K, previamente, utilizado-se o carbonato de silício (carborundum) como agente físico para efetuar a quebrar da parede celular da bactéria. Com este método conseguiu-se extrair DNA bacteriano num menor tempo, além de mais rápido, ele mostrou-se mais simples e econômico, quando comparado aos métodos convencionais. O DNA obtido pode ser utilizado para diversas finalidades relacionadas ao DNA de bactérias, obtendo-se uma quantidade razoável de DNA, que varia de 725 µg/mL a 1170 µg/mL por cada 0,1 g de célula bacteriana, com ótima qualidade.
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Foi desenvolvido um método eficiente, rápido e de baixo custo para extração de DNA de Puccinia kuehnii, patógeno causador da ferrugem alaranjada em cana-de-açúcar, importante doença de recente emergência no ocidente. O protocolo de extração foi testado em esporos recém-coletados e em esporos armazenados a -80ºC por 7 meses. Com uma quantidade inicial de 15 mg de esporos foi obtido concentrações médias de DNA variando de 880,8 mg/mL a 1115,9 mg/mL. A amplificação do DNA extraído foi positiva para as amostras avaliadas.
Resumo:
RNA is essential for all living organisms. It has important roles in protein synthesis, controlling gene expression as well as catalyzing biological reactions. Chemically RNA is a very stable molecule, although in biological systems many agents catalyze the cleavage of RNA, such as naturally occurring enzymes and ribozymes. Much effort has been put in the last decades in developing highly active artificial ribonucleases since such molecules could have potential in the therapeutic field and provide tools for molecular biology. Several potential catalysts have emerged, but usually detailed cleavage mechanism remains unresolved. This thesis is aimed at clarifying mechanistic details of the cleavage and isomerization of RNA by using simpler nucleoside models of RNA. The topics in the experimental part cover three different studies, one concerning the mechanism of catalysis by large ribozymes, one dealing with the reactivity of modified and unmodified RNA oligonucleotides and one showing an efficient catalysis of the cleavage and isomerization of an RNA phosphodiester bond by a dinuclear metal ion complex. A review of the literature concerning stabilization of the phosphorane intermediate of the hydrolysis and isomerization of RNA phosphodiester bond is first presented. The results obtained in the experimental work followed by mechanistic interpretations are introduced in the second part of the thesis. Especially the significance of hydrogen bonding interactions is discussed.
Resumo:
The nucleus is a membrane enclosed organelle containing most of the genetic information of the cell in the form of chromatin. The nucleus, which can be divided into many sub-organelles such as the nucleoli, the Cajal bodies and the nuclear lamina, is the site for several essential cellular functions such as the DNA replication and its regulation and most of the RNA synthesis and processing. The nucleus is often affected in disease: the size and the shape of the nucleus, the chromatin distribution and the size of the nucleoli have remained the basis for the grading of several cancers. The maintenance of the vertebrate body shape depends on the skeleton. Similarly, in a smaller context, the shape of the cell and the nucleus are mainly regulated by the cytoskeletal and nucleoskeletal elements. The nuclear matrix, which by definition is a detergent, DNase and salt resistant proteinaceous nuclear structure, has been suggested to form the nucleoskeleton responsible for the nuclear integrity. Nuclear mitotic apparatus protein, NuMA, a component of the nuclear matrix, is better known for its mitotic spindle organizing function. NuMA is one of the nuclear matrix proteins suggested to participate in the maintenance of the nuclear integrity during interphase but its interphase function has not been solved to date. This thesis study concentrated on the role of NuMA and the nuclear matrix as structural and functional components of the interphase nucleus. The first two studies clarified the essential role of caspase-3 in the disintegration of the nuclear structures during apoptosis. The second study also showed NuMA and chromatin to co-elute from cells in significant amounts and the apoptotic cleavage of NuMA was clarified to have an important role in the dissociation of NuMA from the chromatin. The third study concentrated on the interphase function of NuMA showing NuMA depletion to result in cell cycle arrest and the cytoplasmic relocalization of NuMA interaction partner GAS41. We suggest that the relocalization of the transcription factor GAS41 may mediate the cell cycle arrest. Thus, this study has given new aspects in the interactions of NuMA, chromatin and the nuclear matrix.