79 research outputs found
Triphenylamine- and triazine- containing hydrogen bonded complexes: liquid crystalline supramolecular semiconductors
Despite the fact that triphenylamine derivatives have been widely explored as hole-transporting materials, studies on charge transport properties in the liquid crystal phase have been overlooked. Here, it is reported that triphenylamine liquid crystals can attain very high hole mobility values in a hexagonal columnar mesophase, up toµ˜ 5 cm2V-1s-1. The columnar liquid crystalline phase was obtained by a proper design of a supramolecular mesogen, and this is unprecedented for triphenylamine liquid crystals. In fact, the supramolecules were formed by hydrogen-bonded 1¿:¿3 complexes of a star-shaped triazine core and three triphenylamine peripheral units. The resulting hexagonal columnar mesophase acts as a successful scaffold that confines TPA units at the periphery of columns. Challenging DFT theoretical investigations into a model based on such supramolecular systems involving a large number of atoms were undertaken to explore the stability and geometry of the complexes and their electronic properties
El valor del idioma español en ciencia y tecnologÃa
Se analiza el valor del español como idioma principal en las revistas cientÃficas editadas en España y en los paÃses latinoamericanos, asà como a través de la producción cientÃfica mundial recogida en las principales bases de datos bibliográficas de cobertura internacional. El estudio evidencia la importancia del español como lengua de comunicación cientÃfica en determinados ámbitos disciplinares ligados, por una parte, a intereses socioeconómicos y territoriales de los paÃses de habla española, como es el caso de la economÃa regional, la medicina clÃnica, la geologÃa y medio ambiente y, por otra, a determinados ámbitos cientÃficos propios de las humanidades, como la literatura, la historia de los paÃses iberoamericanos, etc. Este estudio pretende contribuir al mejor conocimiento y comprensión del valor real y potencial del español en la ciencia, de cara a la adecuada utilización de este recurso para el desarrollo de nuestras sociedades y su proyección cultural y económica a escala internacional.We analyse the specific weight of the Spanish as a primary language in scientific journals published in Spain and Latin American countries, as well as through the global scientific output covered by the main bibliographic databases of international coverage. The study highlights the importance of the Spanish as a language of scientific communication in certain disciplinary areas linked on the one hand to socio-economic regional interests of Spanish-speaking countries, as it is the case of Clinical medicine, Geology and Environment, and, on the other, to certain scientific fields of the Social sciences and Humanities, as it is the case of the Regional economy, the Literature, the History of Ibero-American countries, etc. This study aims to contribute to the better knowledge and understanding of the real and potential value of the Spanish in the scientific world, with regard to the appropriate use of this resource for the development of our societies, and its cultural and economic projection at the international level
RNA Methylation by the MIS Complex Regulates a Cell Fate Decision in Yeast
For the yeast Saccharomyces cerevisiae, nutrient limitation is a key developmental signal causing diploid cells to switch from yeast-form budding to either foraging pseudohyphal (PH) growth or meiosis and sporulation. Prolonged starvation leads to lineage restriction, such that cells exiting meiotic prophase are committed to complete sporulation even if nutrients are restored. Here, we have identified an earlier commitment point in the starvation program. After this point, cells, returned to nutrient-rich medium, entered a form of synchronous PH development that was morphologically and genetically indistinguishable from starvation-induced PH growth. We show that lineage restriction during this time was, in part, dependent on the mRNA methyltransferase activity of Ime4, which played separable roles in meiotic induction and suppression of the PH program. Normal levels of meiotic mRNA methylation required the catalytic domain of Ime4, as well as two meiotic proteins, Mum2 and Slz1, which interacted and co-immunoprecipitated with Ime4. This MIS complex (Mum2, Ime4, and Slz1) functioned in both starvation pathways. Together, our results support the notion that the yeast starvation response is an extended process that progressively restricts cell fate and reveal a broad role of post-transcriptional RNA methylation in these decisions
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