Perfecto Gascón Bardají, un metge aragonès a l'Espluga de Francolí (1924-1955)

Perfecto Gascón Bardají, un metge aragonès a l'Espluga de Francolí (1924-1955

Jornada tècnica en línia. Dimarts 16 de febrer 2021

Per primer cop, aquest any farem la jornada tècnica de l’arròs en format en línia, fet que ens permetrà transferir els principals resultats dels experiments realitzats per l’IRTA a l’Estació Experimental de l’Ebre, a un major nombre de tècnics i pagesos vinculats al cultiu de l’arròs. Les ponències que s’abordaran pretenen ajudar en la millora de la sostenibilitat del cultiu i adaptar-nos al nou escenari de l’Europa verda. Per tot això, us convidem a connectar-vos i esperem que us sigui profitosa. En aquesta jornada es presentarà una part de les activitats de demostració “Gestió sostenible del fòsfor en el arrossars (GESFORICE) i Estratègies sostenibles de control de malalties en arròs: cap a residu zero.”, operació 01.02.01 del PDR de Catalunya 2014- 2020.info:eu-repo/semantics/publishedVersio

Master's Degree in University Teaching for Novice Teachers: from training to innovation

La formación en docencia y la adquisición de competencias docentes son elementos primordiales en el desarrollo profesional de cualquier profesor y, por supuesto, del profesorado novel. La Universidad de Barcelona (UB) es la única universidad española que ofrece un máster destinado a la formación de su profesorado novel, por lo que puede considerarse una iniciativa pionera en el campo de la formación docente universitaria. La apuesta que el Instituto de Desarrollo Profesional (IDP-ICE) de la UB hizo por esta formación en 2009, ofreciendo el Máster en Docencia Universitaria para Profesorado Novel, sigue conservando su utilidad y relevancia, tanto dentro de la UB como en el contexto universitario catalán. El máster es un título propio de la UB que contribuye al desarrollo profesional del profesorado universitario como estrategia de mejora de la calidad docente. Se imparte en modalidad semipresencial, e introduce las competencias docentes, entre ellas la competencia digital. En su impartición colaboran profesorado y expertos profesionales de distintos ámbitos de conocimiento, que aportan una mirada multidisciplinar a la formación. El rasgo distintivo del máster es el sistema integral de valoración del proceso de formación y de la evaluación de los aprendizajes, como un proceso permanente y sistemático. Se realiza el seguimiento y valoración a varios niveles: del proceso de mentoría, de la construcción y contenido del portafolio digital docente, del proyecto de mejora o innovación y su proceso de implementación, y del impacto de la formación en el contexto educativo de cada formando

Expression and insulin-regulated distribution of caveolin in skeletal muscle. Caveolin does not colocalize with GLUT4 in intracellular membranes

Caveolin is believed to play an important role in sorting processes, vesicular trafficking, transmembrane signaling, and molecular transport across membranes. In this study we have evaluated the expression and distribution of caveolin in skeletal muscle and its interaction with GLUT4 glucose carriers. Caveolin was expressed to substantial levels in muscle and its expression was regulated in muscle; aging and high fat diet enhanced caveolin expression in skeletal muscle and inversely, myogenesis down-regulated caveolin in L6E9 cells. Under fasting conditions, most of caveolin was found in intracellular membranes and the caveolin present in the cell surface was found in both sarcolemma and T-tubules. Insulin administration led to a redistribution of caveolin from intracellular high density membrane fractions to intracellular lighter density fractions and to the cell surface; this pattern of insulin-induced redistribution was different to what was shown by GLUT4. These results suggests that caveolin is a component of an insulin-regulated machinery of vesicular transport in muscle. Quantitative immunoisolation of GLUT4 vesicles obtained from different intracellular GLUT4 populations revealed the absence of caveolin which substantiates the lack of colocalization of intracellular GLUT4 and caveolin. This indicates that caveolin is not involved in intracellular GLUT4 trafficking in skeletal muscle

Heterogeneous Infectivity and Pathogenesis of SARS-CoV-2 Variants Beta, Delta and Omicron in Transgenic K18-hACE2 and Wildtype Mice

SARS-CoV-2; Viral load; Wildtype miceSARS-CoV-2; Carga viral; Ratones de tipo salvajeSARS-CoV-2; Càrrega viral; Ratolins de tipus salvatgeThe emerging SARS-CoV-2 variants of concern (VOCs) may display enhanced transmissibility, more severity and/or immune evasion; however, the pathogenesis of these new VOCs in experimental SARS-CoV-2 models or the potential infection of other animal species is not completely understood. Here we infected K18-hACE2 transgenic mice with B.1, B.1.351/Beta, B.1.617.2/Delta and BA.1.1/Omicron isolates and demonstrated heterogeneous infectivity and pathogenesis. B.1.351/Beta variant was the most pathogenic, while BA.1.1/Omicron led to lower viral RNA in the absence of major visible clinical signs. In parallel, we infected wildtype (WT) mice and confirmed that, contrary to B.1 and B.1.617.2/Delta, B.1.351/Beta and BA.1.1/Omicron can infect them. Infection in WT mice coursed without major clinical signs and viral RNA was transient and undetectable in the lungs by day 7 post-infection. In silico modeling supported these findings by predicting B.1.351/Beta receptor binding domain (RBD) mutations result in an increased affinity for both human and murine ACE2 receptors, while BA.1/Omicron RBD mutations only show increased affinity for murine ACE2.The research of CBIG consortium (constituted by IRTA-CReSA, BSC & IrsiCaixa) is supported by Grifols. We thank Foundation Dormeur for financial support for the acquisition of the QuantStudio-5 real time PCR system. CÁ-N has a grant by Secretaria d’Universitats i Recerca de la Generalitat de Catalunya and Fons Social Europeu. EG-V is a research fellow from PERIS (SLT017/20/000090). This work was partially funded by grant PID2020-117145RB-I00 from the Spanish Ministry of Science and Innovation (NI-U) the Departament de Salut of the Generalitat de Catalunya (grant SLD016 to JB and Grant SLD015 to JC), the Spanish Health Institute Carlos III (Grant PI17/01518. PI20/00093 to JB and PI18/01332 to JC), Fundació La Marató de TV3 (Project202126-30-21), CERCA Programme/Generalitat de Catalunya 2017 SGR 252, and the crowdfunding initiatives #joemcorono (https://www.yomecorono.com), BonPreu/Esclat and Correos. Funded in part by Fundació Glòria Soler (JB). The funders had no role in study design, data collection and analysis, the decision to publish, or the preparation of the manuscript

Characterization of two distinct intracellular GLUT4 membrane populations in muscle fiber: differential protein composition and sensivity to insulin

A major objective for the understanding of muscle glucose disposal is the elucidation of the intracellular trafficking pathway of GLUT4 glucose carriers in the muscle fiber. In this report, we provide functional and biochemical characterization of two distinct intracellular GLUT4 vesicle pools obtained from rat skeletal muscle. The two pools showed a differential response to insulin; thus, one showed a marked decrease in GLUT4 levels but the other did not. They also showed a markedly different protein composition as detected by quantitative vesicle immunoisolation analysis. The GLUT4 pool showing no response to insulin contained SCAMP proteins and the vSNARE proteins VAMP2 and cellubrevin, whereas only VAMP2 was found in the insulin-recruitable GLUT4 pool. SDS-PAGE and further silver staining of the immunoprecipitates revealed discrete polypeptide bands associated to the insulin-sensitive pool, and all these polypeptide bands were found in the insulin-insensitive population. Furthermore, some polypeptide bands were exclusive to the insulin-insensitive population. The presence of cellubrevin and SCAMP proteins, endosomal markers, suggest that the insulin-insensitive GLUT4 membrane population belongs to an endosomal compartment. In addition, we favor the view that the insulin-sensitive GLUT4 membrane pool is segregated from the endosomal GLUT4 population and is undergoes exocytosis to the cell surface in response to insulin. Intracellular GLUT4 membranes obtained from skeletal muscle contain cellubrevin, and VAMP2 and GLUT4-vesicles from cardiomyocytes also contain cellubrevin. This suggests that vSNARE proteins are key constituents of GLUT4 vesicles. The presence of the tSNARE protein SNAP25 in skeletal muscle membranes and SNAP25 and syntaxin 1A and syntaxin 1B in cardiomyocyte plasma membranes further suggest a role of the SNAREs in GLUT4 trafficking in muscle

Transcriptome innovations in primates revealed by single-molecule long-read sequencing

Transcriptomic diversity greatly contributes to the fundamentals of disease, lineage-specific biology, and environmental adaptation. However, much of the actual isoform repertoire contributing to shaping primate evolution remains unknown. Here, we combined deep long- and short-read sequencing complemented with mass spectrometry proteomics in a panel of lymphoblastoid cell lines (LCLs) from human, three other great apes, and rhesus macaque, producing the largest full-length isoform catalog in primates to date. Around half of the captured isoforms are not annotated in their reference genomes, significantly expanding the gene models in primates. Furthermore, our comparative analyses unveil hundreds of transcriptomic innovations and isoform usage changes related to immune function and immunological disorders. The confluence of these evolutionary innovations with signals of positive selection and their limited impact in the proteome points to changes in alternative splicing in genes involved in immune response as an important target of recent regulatory divergence in primates. changes in alternative splicing in genes involved in immune response as an important target of recent regulatory divergence in primates.This work was supported by the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB31020000); National Key R&D Program of China (China's Ministry of Science and Technology [MoST]) grant 2018YFC1406901; the International Partnership Program of the Chinese Academy of Sciences (no. 152453KYSB20170002); the Carlsberg Foundation (CF16-0663); the Villum Foundation (no. 25900) to G.Z.; and the La Caixa Foundation (ID 100010434) Fellowship Code LCF/BQ/DE16/11570011 (L.F.-P.). The Center for Genomic Regulation (CRG) / Universitat Pompeu Fabra (UPF) Proteomics Unit is part of the Spanish Infrastructure for Omics Technologies (National Map of Unique Scientific and Technical Infrastructures [ICTS] OmicsTech) and a member of the ProteoRed PRB3 Consortium, which is supported by grant PT17/0019 of the PE I + D + i 2013–2016 from the Instituto de Salud Carlos III (ISCIII), European Regional Development Fund (ERDF), and “Secretaria d'Universitats i Recerca del Departament d'Economia i Coneixement de la Generalitat de Catalunya” (2017SGR595). T.M.-B. is supported by funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (grant agreement no. 864203), BFU2017-86471-P (MINECO/FEDER, UE); “Unidad de Excelencia María de Maeztu,” funded by the Agencia Estatal de Investigación (AEI) (CEX2018-000792-M); Howard Hughes International Early Career; National Institutes of Health 1R01HG010898-01A1; and Secretaria d'Universitats i Recerca and Centres de Recerca de Catalunya (CERCA) Programme del Departament d'Economia i Coneixement de la Generalitat de Catalunya (GRC 2017 SGR 880)