Family and research: gender-based and family strategies by Spanish female researchers

Los valores relacionados con la familia y la estructura familiar son decisivos para consolidar las trayectorias profesionales de las mujeres científicas. Al mismo tiempo, las condiciones laborales y profesionales en ciencia (movilidad, implicación en el trabajo, etc.) condicionan las estructuras familiares de estas mujeres. Los resultados de este trabajo revelan que las investigadoras españolas muestran un fuerte compromiso con la familia pero también con sus aspiraciones profesionales. Para lograr ambos objetivos, las mujeres desarrollan diferentes estrategias familiares que son analizadas en este trabajo.Values related to family and family structure are decisive to the professional progression of women scientists. At the same time, professional and labour conditions in science (mobility, working intensity, etc.) influence family structures of these women. The results of this work show that Spanish researchers display a strong commitment to the family and also their professional aspirations. To achieve both goals, women develop different family strategies which are analysed in this work

Virtual libraries of tissue and clinical samples: potential role of a 3-D microscope.

Our international innovative teaching group from different European Universities (De Montfort University, DMU, UK; and the Spanish University of Alcalá, University Miguel Hernández and University of San Pablo CEU), in conjunction with practicing biomedical scientists in the National Health Service (UK) and biomedical researchers, are developing two complete e-learning packages for teaching and learning medical parasitology, named DMU e-Parasitology (accessible at: http://parasitology.dmu.ac.uk), and biology and chemistry, named DMU e-Biology (accessible at: http://parasitology.dmu.ac.uk/ebiology/index.htm), respectively. Both packages will include a virtual microscope with a complete library of digitised tissue images, clinical slides and cell culture slides/mini-videos for enhancing the teaching and learning of a myriad of techniques applicable to health science undergraduate and postgraduate students. Thus, these packages include detecting human parasites, by becoming familiar with their infective structures and/or organs (e.g. eggs, cysts) and/or explore pathogenic tissues stained with traditional (e.g. haematoxylin & eosin) or more modern (e.g. immunohistochemistry) techniques. The Virtual Microscope (VM) module in the DMU e-Parasitology package is almost completed (accessible at: http://parasitology.dmu.ac.uk/learn/microscope.htm) and contains a section for the three major groups of human-pathogenic parasites (Peña-Fernández et al., 2018) [1]. Digitised slides are provided with the functionality of a microscope by using the gadget Zoomify®, and we consider that they can enhance learning, as previous studies reported in the literature have reported similar sensitivity and specificity rates for identification of parasites for both digitised and real slides. The DMU e-Biology’s VM, currently in development, will provide healthy and pathological tissue samples from a range of mammalian tissues and organs. This communication will provide a description of both virtual libraries and the process of developing them. In conjunction, we will use a three-dimensional (3D) super-resolution microscopy, 3D Cell Explorer (Nanolive, Lausanne, Switzerland), to incorporate potential 3D microscopic photographs/short videos of cells to provide students with information about the spatial arrangement and morphologies of cells that are essential for life

Antibacterial bioadhesive layer-by-layer coatings for orthopedic applications

In this study, thin LbL films were produced by combining the adhesive properties of the hyaluronic acidâ dopamine conjugate with the bioactivity and bactericidal properties of silver doped bioactive glass nanoparticles. The build-up of these films was investigated by quartz crystal microbalance with dissipation monitoring. LbL coatings were then constructed on a glass substrate for further characterization. We found that these antimicrobial bioinspired films display enhanced adhesive strength. In vitro bioactivity tests were performed by immersing them in simulated body fluid solution for 14 days where the constructed films promoted the formation of a bone-like apatite layer. From microbiological assays, it was found that coatings containing silver doped nanoparticles exhibited a remarkable antibacterial effect against Staphylococcus aureus and Escherichia coli cultures. Finally, in vitro cellular behavior tests showed enhanced cell adhesion, proliferation and viability for these antibacterial bioadhesive films. Therefore, the constructed thin films showed promising properties and evidenced great potential to be used as coatings for orthopedic implants.The authors acknowledge the Portuguese Foundation for Science and Technology (FCT) and the European program FEDER/COMPETE for the financial support through project BioSeaGlue: EXPL/CTM-BIO/0646/2013 (FCOMP-01-0124-FEDER041105). This work was co-funded by ‘‘Programa Operacional Regional do Norte’’ (ON.2-O Novo Norte) under the ‘‘Quadro de Referência Estratégico Nacional’’ (QREN), through the ‘‘Fundo Europeu de Desenvolvimento Regional’’ (FEDER). E. T. also thanks the FCT investigator grant (IF/01390/2014)

Enhanced enzymatic activity of glycerol-3-phosphate dehydrogenase from the cryophilic Saccharomyces kudriavzevii

During the evolution of the different species classified within the Saccharomyces genus, each one has adapted to live in different environments. One of the most important parameters that have influenced the evolution of Saccharomyces species is the temperature. Here we have focused on the study of the ability of certain species as Saccharomyces kudriavzevii to grow at low temperatures, in contrast to Saccharomyces cerevisiae. We observed that S. kudriavzevii strains isolated from several regions are able to synthesize higher amounts of glycerol, a molecule that has been shown to accumulate in response to freeze and cold stress. To explain this observation at the molecular level we studied the expression of glycerol biosynthetic pathway genes and we observed a higher expression of GPD1 gene in S. kudriavzevii compared to S. cerevisiae in micro-vinification conditions. We observed higher enzymatic activity of Gpd1p in S. kudriavzevii in response to osmotic and cold stress. Also, we determined that S. kudriavzevii Gpd1p enzyme presents increased catalytic properties that will contribute to increase glycerol production. Finally, we evaluated the glycerol production with S. cerevisiae, S. kudriavzevii or a recombinant Gpd1p variant in the same background and observed that the S. kudriavzevii enzyme produced increased glycerol levels at 12 or 28°C. This suggests that glycerol is increased in S. kudriavzevii mainly due to increased Vmax of the Gpd1p enzyme. All these differences indicate that S. kudriavzevii has changed the metabolism to promote the branch of the glycolytic pathway involved in glycerol production to adapt to low temperature environments and maintain the NAD+/NADH ratio in alcoholic fermentations. This knowledge is industrially relevant due to the potential use, for example, of S. cerevisiae-S. kudriavzevii hybrids in the wine industry where glycerol content is an important quality parameter

Caracterização morfológica de solos sódicos em diferentes paleodiques no pantanal norte.

O Pantanal é considerado a maior planície continental inundável do mundo, englobando diferentes habitats, sustentando grande diversidade vegetal e de solos, se destacando os solos sódicos (Planossolos e Luvissolos). Tais solos têm grande importância econômica, social e ambiental para a região, pois se situam em antigos diques (paleodiques) que atualmente constituem as áreas mais elevadas da paisagem sendo que a inundação dessas somente ocorre em eventos excepcionais, servindo como refúgios para animais silvestres e também para geofagia, gerando especificida de ambiental (Coelho, 2006) . Entretanto estes solos necessitam de uma melhor entendimento da relação entre seus atributos morfológicos e a ocorrência de Na+, facilitando assim o seu mapeamento. Devido à grande importância ambiental que representam estes solos, o presente trabalho visou relacionar a morfologia dos horizontes B texturais com o caráter sódico em paleodiques de diferentes estádios de dissecação dessas feições geomórficas, bem como características químicas e físicas. Observou-se que a geomorfologia guarda grande relação com a morfologia do solo, em que paleodiques mais dissecados apresentam transições irregulares, quebradas, maior porosidade e espessamento do horizonte eluvial (E)

Micropedologia de um Argissolo amarelo com horizontes antrópicos (Terra Preta de Índio) na Amazônia Central.

Estudos micropedológicos foram carreados em Terra Preta de Índio (TPI) com o objetivo de elucidar os processos envolvidos em sua gênese, bem como suas formas de utilização pré-colombiana. Blocos indeformados de solo foram coletados por horizonte e em suas respectivas transições em um perfil de Argissolo Amarelo A Antrópico (TPI) localizado no município de Iranduba, AM. As lâminas delgadas confeccionadas a partir dos blocos foram descritas por meio de microscopia óptica. Os resultados mostraram que os processos envolvidos na gênese desse solo envolveram: i) condições pedoambientais diferentes das atuais (pedorrelíquias - nódulos ferruginosos); ii) argiluviação, indicada por revestimentos de ferri-argilãs orientados na parede de poros entre agregados e canais; iii) migração de ferro impregnando o fundo matricial (cutãs de difusão); iv) bioturbação, atestada por preenchimento de poros por pelotas fecais e microagregação zoogenética e v) antropismo, que contribuiu com a queima de resíduos (partículas de carvões) e descarte de artefatos cerâmicos. A análise dos fragmentos cerâmicos corroborou a utilização de cauixi (Tubella reticulata e Parnula betesil) e cariapé (Bignoniacea) como antiplástico para o seu fabrico