195 research outputs found

    Macromolecular ab initio phasing enforcing secondary and tertiary structure.

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    Ab initio phasing of macromolecular structures, from the native intensities alone with no experimental phase information or previous particular structural knowledge, has been the object of a long quest, limited by two main barriers: structure size and resolution of the data. Current approaches to extend the scope of ab initio phasing include use of the Patterson function, density modification and data extrapolation. The authors' approach relies on the combination of locating model fragments such as polyalanine α-helices with the program PHASER and density modification with the program SHELXE. Given the difficulties in discriminating correct small substructures, many putative groups of fragments have to be tested in parallel; thus calculations are performed in a grid or supercomputer. The method has been named after the Italian painter Arcimboldo, who used to compose portraits out of fruit and vegetables. With ARCIMBOLDO, most collections of fragments remain a 'still-life', but some are correct enough for density modification and main-chain tracing to reveal the protein's true portrait. Beyond α-helices, other fragments can be exploited in an analogous way: libraries of helices with modelled side chains, β-strands, predictable fragments such as DNA-binding folds or fragments selected from distant homologues up to libraries of small local folds that are used to enforce nonspecific tertiary structure; thus restoring the ab initio nature of the method. Using these methods, a number of unknown macromolecules with a few thousand atoms and resolutions around 2 Å have been solved. In the 2014 release, use of the program has been simplified. The software mediates the use of massive computing to automate the grid access required in difficult cases but may also run on a single multicore workstation (http://chango.ibmb.csic.es/ARCIMBOLDO_LITE) to solve straightforward cases

    The Structure of the Oligomerization Domain of Lsr2 from Mycobacterium tuberculosis Reveals a Mechanism for Chromosome Organization and Protection

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    Lsr2 is a small DNA-binding protein present in mycobacteria and related actinobacteria that regulates gene expression and influences the organization of bacterial chromatin. Lsr2 is a dimer that binds to AT-rich regions of chromosomal DNA and physically protects DNA from damage by reactive oxygen intermediates (ROI). A recent structure of the C-terminal DNA-binding domain of Lsr2 provides a rationale for its interaction with the minor groove of DNA, its preference for AT-rich tracts, and its similarity to other bacterial nucleoid-associated DNA-binding domains. In contrast, the details of Lsr2 dimerization (and oligomerization) via its N-terminal domain, and the mechanism of Lsr2-mediated chromosomal cross-linking and protection is unknown. We have solved the structure of the N-terminal domain of Lsr2 (N-Lsr2) at 1.73 Å resolution using crystallographic ab initio approaches. The structure shows an intimate dimer of two ß-ß-a motifs with no close homologues in the structural databases. The organization of individual N-Lsr2 dimers in the crystal also reveals a mechanism for oligomerization. Proteolytic removal of three N-terminal residues from Lsr2 results in the formation of an anti-parallel β-sheet between neighboring molecules and the formation of linear chains of N-Lsr2. Oligomerization can be artificially induced using low concentrations of trypsin and the arrangement of N-Lsr2 into long chains is observed in both monoclinic and hexagonal crystallographic space groups. In solution, oligomerization of N-Lsr2 is also observed following treatment with trypsin. A change in chromosomal topology after the addition of trypsin to full-length Lsr2-DNA complexes and protection of DNA towards DNAse digestion can be observed using electron microscopy and electrophoresis. These results suggest a mechanism for oligomerization of Lsr2 via protease-activation leading to chromosome compaction and protection, and concomitant down-regulation of large numbers of genes. This mechanism is likely to be relevant under conditions of stress where cellular proteases are known to be upregulated

    Desarrollo del pensamiento lógico matemático a través de la matemática recreativa en el primer ciclo de secundaria

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    El sistema educativo actual muestra una visión de la matemática marcada por la realización de procedimientos mecánicos y por el aprendizaje por repetición y memorización. En una primera parte de la memoria, reflexionamos sobre por qué consideramos esta perspectiva inadecuada -teniendo en cuenta aspectos legislativos, sociales, del desarrollo personal de los alumnos y del sentido de la propia práctica matemática-. En una segunda parte, ofrecemos una propuesta educativa basada en el desarrollo del pensamiento lógico-matemático a través de la matemática recreativa. Los pilares de la propuesta son el aprendizaje activo, en que el alumno construye su propio conocimiento y resuelve por sí mismo las distintas situaciones problemáticas que se le plantean, y la componente lúdica de las sesiones, que constituye una fuente de motivación para los alumnos y sirve como motor del aprendizaje.<br /

    Experiencia del voluntario tutelar en la Fundación Tutelar Aragonesa Luis de Azua: La sistematización de la praxis desde el trabajo social

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    El trabajo que he llevado a cabo trata sobre la figura del voluntario tutelar en la Fundación Tutelar Aragonesa Luis de Azúa y la repercusión que tiene en el bienestar de la persona tutelada.<br /

    Valoración de la calidad de vida en el anciano rural aragonés

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    1RESUMEN:Introducción: España, y más concretamente Aragón, tienen una población muy envejecida y cada vez más urbanizada. Por tanto, es importante investigar la percepción de la calidad de vida (CV) en ancianos de más de 80 años de pequeñas localidades rurales del territorio de la Comunidad Autónoma de Aragón (CAA).Metodología: Se analizó la percepción del nivel de cv en general y en los dominios de salud física, salud mental, redes sociales y medio ambiente. Los datos se recogieron en ancianos de más de 80 años residentes en localidades de la CAAcuya población era menor de 5.000 habitantes. Se utilizaron cuestionarios que los sujetos debían rellenar con o sin ayuda del cuidador. En dichos cuestionarios, se recogieron variables socio-demográficas, geográficas y se aplicó el instrumento específico de medida the World Health Organization Quality of Life (WHOQOL-BREF) para evaluar la CV.Se realizó un estudio estadístico descriptivo en el cual se determinó la distribución de frecuencias, medidas de dispersión, variables socio-demográficas, y aquellos aspectos necesarios para completar nuestro estudio como el nivel educativo. Además, se utilizó la diferencia de medias y el análisis de fiabilidad para comprobar la validez del modelo.Resultados: Se incluyeron un total de 143 cuestionarios válidos. La edad promedio fue de 85.35 años. Del total de personas que completaron el estudio un 59,44.% fueron mujeres. Respecto a la salud mental y física se encontraron resultados de calificación inferior en las mujeres que en hombres. No obstante, en las redes sociales los datos de las mujeres fueron superiores a la de los hombres.Conclusiones: La percepción que tienen los ancianos de su propia CV resulta ser superior en hombres que en mujeres, en todos los dominios menos en los de las relaciones sociales. Palabras clave: anciano, calidad de vida, población rural, Aragón.<br /

    ARCIMBOLDO on coiled coils.

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    ARCIMBOLDO solves the phase problem by combining the location of small model fragments using Phaser with density modification and autotracing using SHELXE. Mainly helical structures constitute favourable cases, which can be solved using polyalanine helical fragments as search models. Nevertheless, the solution of coiled-coil structures is often complicated by their anisotropic diffraction and apparent translational noncrystallographic symmetry. Long, straight helices have internal translational symmetry and their alignment in preferential directions gives rise to systematic overlap of Patterson vectors. This situation has to be differentiated from the translational symmetry relating different monomers. ARCIMBOLDO_LITE has been run on single workstations on a test pool of 150 coiled-coil structures with 15-635 amino acids per asymmetric unit and with diffraction data resolutions of between 0.9 and 3.0 Å. The results have been used to identify and address specific issues when solving this class of structures using ARCIMBOLDO. Features from Phaser v.2.7 onwards are essential to correct anisotropy and produce translation solutions that will pass the packing filters. As the resolution becomes worse than 2.3 Å, the helix direction may be reversed in the placed fragments. Differentiation between true solutions and pseudo-solutions, in which helix fragments were correctly positioned but in a reverse orientation, was found to be problematic at resolutions worse than 2.3 Å. Therefore, after every new fragment-placement round, complete or sparse combinations of helices in alternative directions are generated and evaluated. The final solution is once again probed by helix reversal, refinement and extension. To conclude, density modification and SHELXE autotracing incorporating helical constraints is also exploited to extend the resolution limit in the case of coiled coils and to enhance the identification of correct solutions. This study resulted in a specialized mode within ARCIMBOLDO for the solution of coiled-coil structures, which overrides the resolution limit and can be invoked from the command line (keyword coiled_coil) or ARCIMBOLDO_LITE task interface in CCP4i

    Structure of a 13-fold superhelix (almost) determined from first principles.

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    Nuclear hormone receptors are cytoplasm-based transcription factors that bind a ligand, translate to the nucleus and initiate gene transcription in complex with a co-activator such as TIF2 (transcriptional intermediary factor 2). For structural studies the co-activator is usually mimicked by a peptide of circa 13 residues, which for the largest part forms an α-helix when bound to the receptor. The aim was to co-crystallize the glucocorticoid receptor in complex with a ligand and the TIF2 co-activator peptide. The 1.82 Å resolution diffraction data obtained from the crystal could not be phased by molecular replacement using the known receptor structures. HPLC analysis of the crystals revealed the absence of the receptor and indicated that only the co-activator peptide was present. The self-rotation function displayed 13-fold rotational symmetry, which initiated an exhaustive but unsuccessful molecular-replacement approach using motifs of 13-fold symmetry such as α- and β-barrels in various geometries. The structure was ultimately determined by using a single α-helix and the software ARCIMBOLDO, which assembles fragments placed by PHASER before using them as seeds for density modification model building in SHELXE. Systematic variation of the helix length revealed upper and lower size limits for successful structure determination. A beautiful but unanticipated structure was obtained that forms superhelices with left-handed twist throughout the crystal, stabilized by ligand interactions. Together with the increasing diversity of structural elements in the Protein Data Bank the results from TIF2 confirm the potential of fragment-based molecular replacement to significantly accelerate the phasing step for native diffraction data at around 2 Å resolution

    ALEPH: a network-oriented approach for the generation of fragment-based libraries and for structure interpretation.

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    The analysis of large structural databases reveals general features and relationships among proteins, providing useful insight. A different approach is required to characterize ubiquitous secondary-structure elements, where flexibility is essential in order to capture small local differences. The ALEPH software is optimized for the analysis and the extraction of small protein folds by relying on their geometry rather than on their sequence. The annotation of the structural variability of a given fold provides valuable information for fragment-based molecular-replacement methods, in which testing alternative model hypotheses can succeed in solving difficult structures when no homology models are available or are successful. ARCIMBOLDO_BORGES combines the use of composite secondary-structure elements as a search model with density modification and tracing to reveal the rest of the structure when both steps are successful. This phasing method relies on general fold libraries describing variations around a given pattern of β-sheets and helices extracted using ALEPH. The program introduces characteristic vectors defined from the main-chain atoms as a way to describe the geometrical properties of the structure. ALEPH encodes structural properties in a graph network, the exploration of which allows secondary-structure annotation, decomposition of a structure into small compact folds, generation of libraries of models representing a variation of a given fold and finally superposition of these folds onto a target structure. These functions are available through a graphical interface designed to interactively show the results of structure manipulation, annotation, fold decomposition, clustering and library generation. ALEPH can produce pictures of the graphs, structures and folds for publication purposes
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