Targeting DNA repeat sequences with Py-Im polyamides

Hairpin pyrrole-imdazole polyamides are cell-permeable, sequence-programmable oligomers that bind in the minor groove of DNA. This thesis describes studies of Py-Im polyamides targeted to biologically important DNA repeat sequences for the purpose of modulating disease states. Design of a hairpin polyamide that binds the CG dyad, a site of DNA methylation that can become dysregulated in cancer, is described. We report the synthesis of a DNA methylation antagonist, its sequence specificity and affinity informed by Bind-n-Seq and iteratively designed, which improves inhibitory activity in a cell-free assay by 1000-fold to low nanomolar IC50. Additionally, a hairpin polyamide targeted to the telomeric sequence is found to trigger a slow necrotic-type cell death with the release of inflammatory molecules in a model of B cell lymphoma. The effects of the polyamide are unique in this class of oligomers; its effects are characterized and a functional assay of phagocytosis by macrophages is described. Additionally, hairpin polyamides targeted to pathologically expanded CTG•CAG triplet repeat DNA sequences, the molecular cause of myotonic dystrophy type 1, are synthesized and assessed for toxicity. Lastly, ChIP-seq of Hypoxia-Inducible Factor is performed under hypoxia-induced conditions. The study results show that ChIP-seq can be employed to understand the genome-wide perturbation of Hypoxia-Inducible Factor occupancy by a Py-Im polyamide.

The impact of molecular biology on assessment of water quality: advantages and limitations of current techniques

The advent of molecular biology has had a dramatic impact on all aspects of biology, not least applied microbial ecology. Microbiological testing of water has traditionally depended largely on culture techniques. Growing understanding that only a small proportion of microbial species are culturable, and that many microorganisms may attain a viable but non-culturable state, has promoted the development of novel approaches to monitoring pathogens in the environment. This has been paralleled by an increased awareness of the surprising genetic diversity of natural microbial populations. By targeting gene sequences that are specific for particular microorganisms, for example genes that encode diagnostic enzymes, or species-specific domains of conserved genes such as 16S ribosomal RNA coding sequences (rrn genes), the problems of culture can be avoided. Technical developments, notably in the area of in vitro amplification of DNA using the polymerase chain reaction (PCR), now permit routine detection and identification of specific microorganisms, even when present in very low numbers. Although the techniques of molecular biology have provided some very powerful tools for environmental microbiology, it should not be forgotten that these have their own drawbacks and biases in sampling. For example, molecular techniques are dependent on efficient lysis and recovery of nucleic acids from both vegetative forms and spores of microbial species that may differ radically when growing in the laboratory compared with the natural environment. Furthermore, PCR amplification can introduce its own bias depending on the nature of the oligonucleotide primers utilised. However, despite these potential caveats, it seems likely that a molecular biological approach, particularly with its potential for automation, will provide the mainstay of diagnostic technology for the foreseeable future.

Properties of convergence of a class of iterative processes generated by sequences of self-mappings with applications to switched dynamic systems

This article investigates the convergence properties of iterative processes involving sequences of self-mappings of metric or Banach spaces. Such sequences are built from a set of primary self-mappings which are either expansive or non-expansive self-mappings and some of the non-expansive ones can be contractive including the case of strict contractions. The sequences are built subject to switching laws which select each active self-mapping on a certain activation interval in such a way that essential properties of boundedness and convergence of distances and iterated sequences are guaranteed. Applications to the important problem of stability of dynamic switched systems are also given.

Filogenia de Mycalina Hajdu, van Soest & Hooper, 1994 (Poecilosclerida, Demospongiae): dados morfológicos e moleculares

principalmente pelo baixo grau de complexidade de especialização, escassez de caracteres distintivos e a elevada plasticidade morfológica. A partir do século XIX emergiram classificações mais robustas. O que conhecemos hoje como Ordem Poecilosclerida só começou a ser delineado pela iniciativa de Zittel (1878) com o reconhecimento de Monaxonida, ou seja, reconhecimento de um padrão de simetria nas categorias de espículas. Ridley e Dendy (1887) apresentaram uma nova classificação para as esponjas do grupo Monaxonida utilizada por Topsent (1894) para criação da Familia Poeciloscleridae, eregida a ordem por este último autor em 1928, enfatizando a presença das quelas como microscleras. Posteriormente, van Soest (1984) e Bergquist e Fromont (1988) empreenderam discussões dessa classificação com base em uma perspectiva filogenética. Uma classificação robusta e de consenso só foi conseguida a partir dos trabalhos de Hajdu e colaboradores (1994a, 1994b) e Hajdu (1994, 1995), com o estabelecimento das Subordens: Mycalina, Myxillina e Microcionina. Apesar disso, as relações internas das famílias da Subordem Mycalina permaneciam com dúvidas, principalmente no tocante à inclusão de Podospongiidae, Isodictyidae, e a relação de Poecilosclerida com a Ordem Haplosclerida. Neste trabalho foi proposto a revisão da classificação da Subordem Mycalina com base em dados morfológicos e moleculares. Foram feitas análises filogenéticas em três níveis taxonômicos, espécie, gênero e família, com base em dados morfológicos. Além disso, foi feita uma análise filogenética molecular utilizando sequências parciais da subunidade maior do RNA ribossomal (LSU do RNAr). As amostras de Mycalina foram amplificadas via PCR e posteriormente sequenciadas. Com base nestes resultados foi concluído que: as Familias Cladorhizidae, Guitarridae, Mycalidae e Hamacanthidae são monofiléticas. Para esta última foi confirmada a série de transformação sigmancistra > cirtancistra > diâncistra > clavidisco. A posição da Familia Podospongiidae dentro de Mycalina está bem corroborada, porém, precisa ser melhor estudada com dados moleculares para determinar, ou não, o seu monofiletismo. A Familia Esperiopsidae precisa ser melhor estudada com base em dados morfológicos e o gênero Amphilectus precisa ser revisado, provavelmente uma parte deste estaria melhor alocado em Haplosclerida junto com Isodictyidae. A Familia Desmacellidae não é monofilética, bem como Biemna e Neofibularia, provavelmente, não são Poecilosclerida e deveriam ser transferidas para uma posição próxima de Tetractinellida. Desmacella provavelmente é uma Mycalina com posição basal na Subordem. Os demais gêneros precisam ser estudados com base em dados moleculares. A Ordem Haplosclerida provavelmente é o grupo irmão de Poecilosclerida e a série de transformação sigmas > quelas foi confirmada com base em dados morfológicos e moleculares. A Subordem Mycalina não é monofilética como definida em Hajdu e van Soest (2002a). Palavras-chave: Sistemática. Porifera. Evolução.

Identification of Sex and Female’s Reproductive Stage in Commercial Fish Species through the Quantification of Ribosomal Transcripts in Gonads

The estimation of maturity and sex of fish stocks in European waters is a requirement of the EU Data Collection Framework as part of the policy to improve fisheries management. On the other hand, research on fish biology is increasingly focused in molecular approaches, researchers needing correct identification of fish sex and reproductive stage without necessarily having in house the histological know-how necessary for the task. Taking advantage of the differential gene transcription occurring during fish sex differentiation and gametogenesis, the utility of 5S ribosomal RNA (5S rRNA) and General transcription factor IIIA (gtf3a) in the molecular identification of sex and gametogenic stage was tested in different economically-relevant fish species from the Bay of Biscay. Gonads of 9 fish species (, Atlantic, Atlantic-chub and horse mackerel, blue whiting, bogue, European anchovy, hake and pilchard and megrim), collected from local commercial fishing vessels were histologically sexed and 5S and 18S rRNA concentrations were quantified by capillary electrophoresis to calculate a 5S/18S rRNA index. Degenerate primers permitted cloning and sequencing of gtf3a fragments in 7 of the studied species. 5S rRNA and gtf3a transcript levels, together with 5S/18S rRNA index, distinguished clearly ovaries from testis in all of the studied species. The values were always higher in females than in males. 5S/18S rRNA index values in females were always highest when fish were captured in early phases of ovary development whilst, in later vitellogenic stages, the values decreased significantly. In megrim and European anchovy, where gonads in different oogenesis stages were obtained, the 5S/18S rRNA index identified clearly gametogenic stage. This approach, to the sexing and the quantitative non-subjective identification of the maturity stage of female fish, could have multiple applications in the study of fish stock dynamics, fish reproduction and fecundity and fish biology in general.