Prolapso de la glándula lacrimal del tercer párpado

El prolapso de la glándula lacrimal del tercer párpado es relativamente frecuente en oftalmología canina. La exéresis glandular es una técnica sencilla, aunque puede presentar complicaciones a largo plazo. La adenopexia debería ser la primera elección quirúrgica, su resultado depende de una adecuada exposición de la esclerótica, del tamaño de la glándula y de la calidad del material de sutura empleado.Protrusion of the membrane nictitans gland is a common occurrence in veterinary ophthalmology. Although excision of the gland is an easy technique, it can develop serious further complications. Adenopexia should be the first surgical election, iss success depends on the clear sclera exposure, the gland size and the quality of the suture material employed

Mesopore-modified mordenites as catalysts for catalytic pyrolysis of biomass and cracking of vacuum gasoil processes

[EN] Mesopore-modified mordenite zeolitic materials with different Si/Al ratios have been repared and tested in the biomass pyrolysis and catalytic cracking of vacuum gasoil. Alkaline treatment was carried out to generate mesoporosity. Severity of alkaline treatment was found to be of paramount importance to tune the generated mesoporosity, while it significantly affected the crystallinity of treated mordenites. It was moreover observed that the alkaline treatment selectively extracted Si decreasing the Si/Al ratio of treated samples. Catalytic activity of parent and alkaline treated mordenites was studied in the pyrolysis of biomass. All zeolitic based materials produced less amounts of bio-oil but of better quality (lowering the oxygen content from ∼40% to as much as 21%) as compared to the non-catalytic pyrolysis experiments. On the other hand, it was found that the combination of mesopore formation and high surface area after alkaline treatment of the mordenite with a high Si/Al ratio resulted in the enhancement of its catalytic activity, despite the reduction of its acidity. The increment of the decarboxylation and dehydration reactions, combined with a reduction of carbon deposition on the catalyst, resulted in a remarkable decrease in the oxygen content in the organic fraction and therefore, resulted in a superior quality liquid product. Alkaline treated mordenites were additionally acid treated targeting dealumination and removal of the extra framework debris, thus generating mesopore-modified mordenite samples with stronger acid sites and higher total acidity, as candidate catalysts for catalytic cracking of vacuum gasoil. Desilicated and especially desilicated and dealuminated mordenites exhibited the highest activity and selectivity towards LCO with the best olefinicity in gases and higher bottoms conversion. Therefore, an optimized desilicated dealuminated mordenite additive could be an interesting candidate as a component of the FCC catalyst for a high LCO yield.The financial support of this work by the ACENET COMMON INITIATIVE HECABIO: "HEterogeneous CAtalysis for the Conversion of Solid BIOmass into Renewable Fuels and Chemicals" Project ACE.07.026 is gratefully acknowledged.Stefanidis, S.; Kalogiannis, K.; Iliopoulou, EF.; Lappas, AA.; Martínez Triguero, LJ.; Navarro Ruiz, MT.; Chica, A.... (2013). Mesopore-modified mordenites as catalysts for catalytic pyrolysis of biomass and cracking of vacuum gasoil processes. Green Chemistry. 15(6):1647-1658. doi:10.1039/c3gc40161hS1647165815

Advanced transmission electron microscopy investigation of defect formation in movpe-growth of gap on silicon using arsenic initial coverage

Integration of GaP layers on silicon substrates using AsH3 pre-exposure followed by a PH3-based GaP epitaxial growth allows the development of very promising processes for the photovoltaic industry, although many of the growth routines using this approach suffer from reproducibility issues when transferred to a new epitaxial system, leading to poor quality layers. This fact reveals a lack of knowledge on the mechanisms behind the formation of the most common planar defects (stacking faults and microtwins) and their dynamics for GaP/Si Metal Organic Vapor Phase Epitaxy using AsH3 and PH3. Therefore, in this work, a set of GaP/Si samples with a similarly high defect density grown between 700 °C and 725 °C, are analyzed by means of high-resolution scanning transmission electron microscopy and electron energy loss spectroscopy. The results presented show contaminant-free Si surfaces for temperatures above 725 °C, ruling out the hypothesis of contaminant as the origin of these planar defects. Regarding the interface Si/GaP, the GaP growth starts, in all the samples, with Ga Si bonds. Additionally, no traces of As are found, which reinforces the hypothesis of an effectively displacement of As on Si surface by Ga atoms at high temperature. Finally, it is observed complex chemical structures in the origin of the microtwins and the cause of the origin of these defects seems to be a localized gallium depletion at the GaP/Si interface

Caracterización del sistema de secreción de tipo VI en Rhizobium etli Mim1

La simbiosis rizobio-leguminosa es altamente específica. La translocación de proteínas denominadas efectores desde el citoplasma bacteriano a la célula vegetal es un elemento relacionado con dicha especificidad. Los efectores pueden ser translocados a través de diferentes sistemas de secreción. El análisis de genomas de rizobios ha permitido identificar en algunos la presencia de sistemas de secreción de tipo VI (T6SS). El T6SS tiene como componente principal una nanoestructura similar a las que utilizan los bacteriófagos1 para inyectar su ADN y que las bacterias usan para secretar proteínas. Los genes implicados en la formación de T6SS están agrupados y los que codifican para componentes estructurales del sistema presentan mayor grado de conservación entre rizobios y frente a otras bacterias en comparación a los genes que codifican para efectores y reguladores del sistema. En nuestro grupo se está estudiando el T6SS de Rhizobium etli bv mimosae Mim12 aislada de nódulos de Mimosa affinis y capaz de nodular además Phaseolus vulgaris y Leucaena leucocephala. La cepa Mim1 contiene una agrupación de 28 genes en el plásmido f no simbiótico, relacionados con la formación de un T6SS, presentando una organización similar a la descrita en Agrobacterium tumefaciens C583 que consiste en dos operones divergentes. Se ha descrito para varios microorganismos que cuando el T6SS está activo, las proteínas Hcp y VgrG que forman parte del aparato de secreción pueden detectarse en el medio extracelular3. Los genes que codifican proteínas estructurales en las dos bacterias presentan una gran similitud, así Hcp muestra un 94% de identidad entre ambas permitiendo que los anticuerpos que detectan Hcp de Agrobacterium3 también reaccionen con Hcp de Mim1. Utilizando anticuerpos contra Hcp de Agrobacterium se ha identificado esta proteína en el medio extracelular de cultivos de Mim1 en fase estacionaria y débilmente en fase exponencial. También se ha demostrado su presencia en nódulos de judía y en cultivos crecidos en presencia de exudados de L. leucocephala, P. vulgaris y Pisum sativum. Además, con el fin de conocer en qué condiciones se activa el T6SS de Mim1, se analizó una región de ADN presumiblemente promotora comprendida entre las dos agrupaciones de genes orientados de forma divergente de Mim1. Esta región se fusionó transcripcionalmente a un gen b-gal delator sin promotor del vector pMP220 en las dos posibles orientaciones, una de las orientaciones (P1) controlaría la expresión de genes como hcp y posibles efectores y la otra (P2) de otros genes estructurales. Los resultados mostraron que ambas orientaciones se expresaban a altas DO600 (0,8-1) aunque los valores de P1 fueron entre dos y tres veces superiores a los de P2. Sin embargo a bajas DO600 (0,1-0,2) la actividad de P1 ser redujo a la mitad y la de P2 a niveles del control sin promotor. Con el objetivo de conocer el papel del T6SS en simbiosis se han realizado 3 mutantes que afectan a genes estructurales del T6SS de Mim1, uno en el gen hcp, otro en tssM y el tercero es una deleción de todos los genes presumiblemente dependientes de P2. Se examinó el fenotipo producido en P. vulgaris y L. leucocephala y se observó que los tres mutantes produjeron nódulos blancos y plantas con un porte similar a plantas no inoculadas, con menor tamaño que las inoculadas con la cepa parental y con un color más amarillento. En este trabajo se ha mostrado por primera vez que la presencia de un T6SS en rizobios tiene un efecto beneficioso en la simbiosis con varios hospedadores. En estos momentos se esta trabajando en la caracterización de posibles efectores. Referencias. 1. Records AR. 2011 The type VI secretion system: a multipurpose delivery sustem with a phage-like machinery. Mol Plant Microbe Interact 24: 751-757. 2. Rogel MA et al. 2014. Genomic basis of symbiovar mimosae in Rhizobium etli. BMC Genomics 15: 575 3. Wu, HY et al. 2012. Acid-induced type VI secretion system is regulated by ExoR-ChvG/Chv

Characterization of type VI secretion systems (T6SS) of endosymbionts from mimosa or lupine

The T6SS is a nanosyringe that injects proteins into prokaryotic or eukaryotic cells, and it is encoded in the genomes of more than 25% of Gram-negative bacteria (1). We are studying the T6SS of Rhizobium etli Mim1 and Bradyrhizobium sp. LmicA16, symbionts of Phaseolus vulgaris/Leucaena leucocephala and Lupinus micranthus/Lupinus angustifolius/Spartium junceum, respectively. R. etli Mim1 contains a T6SS gene cluster organized in two divergent operons. When the T6SS is active, Hcp, a constituent of the secretory apparatus, can be detected in the extracellular medium (2). Hcp has been immunologically detected in the supernatant of Mim1 cultures. This protein was also detected in bean nodule extracts and in cultures grown in the presence of different legumes exudates. The putative divergent promoters located between the two T6SS gene clusters were analysed by ?- gal fusions. The results showed high levels of expression of the two promoters at high OD and low values at lower ODs. Mutants affected in structural genes induced white nodules with P. vulgaris and L. leucocephala. On the other hand, mutagenesis of T6SS structural genes from LmicA16 strain produced different symbiotic phenotypes. An LmicA16 tssC mutant showed reduced levels of nitrogen fixation on L. micranthus, whereas the same mutant induced the formation of few white, non-fixing nodules on L. angustifolius and S. junceum. (1) Ho et al. (2013) Cell Host Microbe 15:9-21. (2) Wu et al. (2012) PLoS Pathog. 8:1-18 Funded by grants BIO2013-43040-P (MINECO), CGL2011-26932 (MICINN) and AL16-PID-06 (UPM)

Spectroscopic, calorimetric, and catalytic evidences of hydrophobicity on Ti-MCM-41 silylated materials for olefin epoxidations

tHydrophobic Ti-MCM-41 samples prepared by post-synthesis silylation treatment demonstrate to behighly active and selective catalysts in olefins epoxidation by using organic hydroperoxides as oxidizingagents in liquid phase reaction systems. Epoxide yields show important enhancements with increasedsilylation degrees of the Ti-mesoporous samples. Catalytic studies are combined and correlated withspectroscopic techniques (e.g. XRD, XANES, UV-Visible,29Si MAS-NMR) and calorimetric measurementsto better understand the changes in the surface chemistry of Ti-MCM-41 samples due to the post-synthesis silylation treatment and to ascertain the role of these trimethylsilyl groups incorporated inolefin epoxidation. In such manner, the effect of the organic moieties on solids, and both water and gly-col molecules contents on the catalytic activity and selectivity are analyzed in detail. Results show thatthe hydrophobicity level of the samples is responsible for the decrease in water adsorption and, conse-quently, the negligible formation of the non-desired glycol during the catalytic process. Thus, catalystdeactivation by glycol poisoning of Ti active sites is greatly diminished, this increasing catalyst stabilityand leading to practically quantitative production of the corresponding epoxide. The extended use ofthese hydrophobic Ti-MCM-41 catalysts together with organic hydroperoxides for the highly efficientand selective epoxidation of natural terpenes is also exemplified.The authors gratefully acknowledge financial support of Spanish Government (MAT2012-38567-C02-01, Consolider-Ingenio 2010-Multicat CSD-2009-00050 and Severo Ochoa SEV-2012-0267) and Generalitat Valenciana (Project Prometeo). M.E.D. also thanks funds from Spanish Government (CTQ-2011-27550) and CSIC (PIE 2009801063). J.S.A. and F.R.R. acknowledge financial support from MINECO (Projects MAT2013-45008-p and CONCERT Project-NASEMS (PCIN-2013-057), and from Generalitat Valenciana (PROMETEO2009/002).Silvestre Albero, J.; Domine ., ME.; Jorda Moret, JL.; Navarro Villalba, MT.; Rey Garcia, F.; Rodriguez-Reinoso, F.; Corma Canós, A. (2015). Spectroscopic, calorimetric, and catalytic evidences of hydrophobicity on Ti-MCM-41 silylated materials for olefin epoxidations. Applied Catalysis A: General. 507:14-25. https://doi.org/10.1016/j.apcata.2015.09.029S142550

Genomic analysis of three Bradyrhizobium geno(species) nodulating Lima bean (Phaseolus lunatus L.) in Peru

The Lima bean (Phaseolus lunatus), also known as pallar, ibes, garrofón or butter bean in Peru, México, Spain and USA, respectively, is the second most economically important species of Phaseolus. Peru is a centre of origin and domestication of Lima bean. This crop is cultivated mainly in the Central coast of Peru under a subtropical arid climate. In contrast to the common bean (Phaseolus vulgaris) which forms nodules with fast growing Rhizobium strains, the Lima bean forms nodules with slow growing bacteria of the Bradyrhizobium genus (López-López et al. 2013, Ormeño-Orrillo et al. 2006). We found strains of Bradyrhizobium yuanmingense and of three novel Bradyrhizobium genospecies inside P. lunatus nodules in Peru (Ormeño- Orrillo et al. 2006). Strains of the three novel genospecies were characterized by showing an extra-slow growing phenotype (generation time > 10 h-1) and strong alkali production in yeast extract mannitol medium. Two of the novel genospecies were recently named as Bradyrhizobium paxllaeri and Bradyrhizobium icense (Durán et al. 2014). B. paxllaeri strains dominate nodule occupancy followed by those of B. icense and then the third and yet-unnamed genospecies. With the aim to gain insights into this differential competitive ability, we sequenced the genome of one representative strain of each species. Sequencing was performed with the Illumina HiSeq or MiSeq platform and genome assembly with the SPAdes program. Gene prediction and automated annotation was performed with Prokka and RAST. Annotation of genes putatively involved in competitiveness was manually curated. Assemblies had from 55 to 175 contigs, with N50 sizes > 131 kb. Genome sizes of B. paxllaeri and B. icense were similar (8.2 Mb) and larger than that of the third genospecies (7.8 Mb). Preliminary analysis revealed differences between B. paxllaeri and the other two genospecies such as more genes for type IV pilus and two nodA genes. A comparative genomic analysis of P. lunatus symbionts will be presented at the meeting

Multidimensional cosmological models: cosmological and astrophysical implications and constraints

We investigate four-dimensional effective theories which are obtained by dimensional reduction of multidimensional cosmological models with factorizable geometry and consider the interaction between conformal excitations of the internal space (geometrical moduli excitations) and Abelian gauge fields. It is assumed that the internal space background can be stabilized by minima of an effective potential. The conformal excitations over such a background have the form of massive scalar fields (gravitational excitons) propagating in the external spacetime. We discuss cosmological and astrophysical implications of the interaction between gravexcitons and four-dimensional photons as well as constraints arising on multidimensional models of the type considered in our paper. In particular, we show that due to the experimental bounds on the variation of the fine structure constant, gravexcitons should decay before nucleosynthesis starts. For a successful nucleosynthesis the masses of the decaying gravexcitons should be m>10^4 GeV. Furthermore, we discuss the possible contribution of gravexcitons to UHECR. It is shown that, at energies of about 10^{20}eV, the decay length of gravexcitons with masses m>10^4 GeV is very small, but that for m <10^2 GeV it becomes much larger than the Greisen-Zatsepin-Kuzmin cut-off distance. Finally, we investigate the possibility for gravexciton-photon oscillations in strong magnetic fields of astrophysical objects. The corresponding estimates indicate that even the high magnetic field strengths of magnetars are not sufficient for an efficient and copious production of gravexcitons.Comment: 16 pages, LaTeX2e, minor changes, improved references, to appear in PR

Reintroducción del altramuz endémico valenciano Lupinus mariaejosephae mediante la inoculación de cepas seleccionadas de bacterias del género Bradyrhizobium

Lupinus mariae-josephae es un altramuz endémico de la provincia de Valencia de reciente descubrimiento para la ciencia. Se conocen solo 4 poblaciones, algunas con miles de individuos pero todas ellas con grandes fluctuaciones interanuales, tanto demográficas como de éxito reproductivo. Es por ello que está incluida en el Catálogo Valenciano de Especies de Flora Amenazadas como "Especie Vulnerable". Con finalidad conservacionista se realizó una reintroducción de la especie dentro de su área de distribución conocida. Para ello, se sembraron semillas del altramuz valenciano en 3 grupos (tratamientos) diferentes, 2 de ellos inoculados con sendas cepas de una bacteria simbionte fijadora de nitrógeno atmosférico del género Bradyrhizobium; al tercero no se le inoculó ninguna bacteria. La bacteria, específica de esta leguminosa, y las cepas, fueron aisladas, estudiadas y seleccionadas en investigaciones anteriores. Al final del ciclo biológico de la especie se valoró el éxito en la supervivencia y el éxito reproductivo encontrando resultados óptimos sobre todo para una de las cepas utilizadas (LmjC) que previamente ya había demostrado un comportamiento eficiente en condiciones controladas. Estos resultados serán de gran ayuda para el futuro establecimiento de nuevas poblaciones del altramuz valenciano, con la posible mejora de su estatus de amenaza

No silver bullet for digital soil mapping: country-specific soil organic carbon estimates across Latin America.

Country-specific soil organic carbon (SOC) estimates are the baseline for the Global SOC Map of the Global Soil Partnership (GSOCmap-GSP). This endeavor is key to explaining the uncertainty of global SOC estimates but requires harmonizing heterogeneous datasets and building country-specific capacities for digital soil mapping (DSM).We identified country-specific predictors for SOC and tested the performance of five predictive algorithms for mapping SOC across Latin America. The algorithms included support vector machines (SVMs), random forest (RF), kernel-weighted nearest neighbors (KK), partial least squares regression (PL), and regression kriging based on stepwise multiple linear models (RK). Country-specific training data and SOC predictors (5 x 5 km pixel resolution) were obtained from ISRIC - World Soil Information. Temperature, soil type, vegetation indices, and topographic constraints were the best predictors for SOC, but country-specific predictors and their respective weights varied across Latin America. We compared a large diversity of country-specific datasets and models, and were able to explain SOC variability in a range between ~ 1 and ~ 60 %, with no universal predictive algorithm among countries. A regional (n = 11 268 SOC estimates) ensemble of these five algorithms was able to explain ~ 39% of SOC variability from repeated 5-fold cross-validation.We report a combined SOC stock of 77.8 +- 43.6 Pg (uncertainty represented by the full conditional response of independent model residuals) across Latin America. SOC stocks were higher in tropical forests (30 +- 16.5 Pg) and croplands (13 +- 8.1 Pg). Country-specific and regional ensembles revealed spatial discrepancies across geopolitical borders, higher elevations, and coastal plains, but provided similar regional stocks (77.8 +- 42.2 and 76.8 +- 45.1 Pg, respectively). These results are conservative compared to global estimates (e.g., SoilGrids250m 185.8 Pg, the Harmonized World Soil Database 138.4 Pg, or the GSOCmap-GSP 99.7 Pg). Countries with large area (i.e., Brazil, Bolivia, Mexico, Peru) and large spatial SOC heterogeneity had lower SOC stocks per unit area and larger uncertainty in their predictions. We highlight that expert opinion is needed to set boundary prediction limits to avoid unrealistically high modeling estimates. For maximizing explained variance while minimizing prediction bias, the selection of predictive algorithms for SOC mapping should consider density of available data and variability of country-specific environmental gradients. This study highlights the large degree of spatial uncertainty in SOC estimates across Latin America. We provide a framework for improving country-specific mapping efforts and reducing current discrepancy of global, regional, and country-specific SOC estimates