Análisis por técnicas morfológicas y secuenciación de ADN del polen atmosférico de la Comunidad de Madrid: estudios preliminares. Morphological analysis and DNA sequencing of atmospheric pollen in Madrid region: preliminary study

Hasta el momento, el estudio de las partículas biológicas en el aire que respiramos, se ha dirigido, principalmente, al conocimiento y control del polen y esporas, aeroalérgenos cuyo impacto en salud es bien conocido. Recientemente la comunidad científica ha sugerido que el aire es un ecosistema en sí mismo, que tendría su propia “aerobiota”, compuesta principalmente por virus, bacterias, esporas de hongos y polen. Para estudiar en conjunto toda esta biodiversidad en el aire urbano en la Comunidad de Madrid, surge el consorcio pluridisciplinar AIRBIOTA-CM, que integra a cinco grupos de investigación de áreas muy diferentes, que pretenden obtener una visión conjunta sobre la composición y dinámica de las partículas biológicas del aire, optimizando los sistemas de muestreo y análisis. Las propuestas más novedosas de las investigaciones iniciadas por este consorcio, son la utilización de técnicas innovadoras de génetica molecular como la secuenciación masiva aplicada en metagenómica (“Next Generation Sequencing”, NGS) y el uso de nuevas estrategias de captación, como el empleo de aeronaves no tripuladas, para muestrear a diferentes alturas y en localizaciones geográficas urbanas que a priori puedan tener una composición diferente de la biota y tengan una actividad humana relevante. El proyecto se inicia en otoño de 2014, y los resultados preliminares que presentamos son los obtenidos mediante el análisis morfológico tradicional y el análisis del ADN del polen de una misma muestra procedente de un captador Burkard. Estos resultados evidencian que los captadores tipo Hirst utilizados por las redes aerobiológicas pueden emplearse también en los estudios de metagenómica, y que los datos obtenidos mediante la aplicación de ambos métodos de análisis coinciden a grandes rasgos, lo que revela que esta nueva metodología constituye una buena aproximación y posible alternativa al análisis morfológico, aunque se necesitan más estudios comparativos para adaptar bien esta tecnología. So far, the study of the biological particles in the air we breathe has been mainly directed at knowing and controlling pollen and spores, aeroallergens with a well-known health impact., It has been recently suggested that the air is an ecosystem in itself, and that it probably has its own biota, which would be composed mainly of viruses, bacteria, fungal spores, and pollen. The main objective of the AIRBIOTA-CM project is to study this diverse set of biological particles present in the urban air in the Community of Madrid using a multidisciplinary, innovative and integrative approach. The project is collaboration between five research groups in very different fields, which aim is to get an overview on the composition and dynamics of biological particles in the air to optimize the methods of sampling and analysis. As a methodological innovation, there is an attempt to apply the breakthroughs in metagenomics to the study of bioaerosols. In addition, new collection strategies have been used, such as the use of unmanned aerial vehicles by designing or adapting new samplers for these vehicles, to sample at different altitudes and in urban geographic locations that might presumably have a different composition of the biota and relevant human activity. The project started in autumn 2014. The preliminary results presented here refer to the comparison of results obtained by means of traditional (light microscopy) and metagenomics methods on atmospheric pollen in the Community of Madrid. The data obtained by both analyses coincide broadly, revealing that the molecular methodology is a good and possible alternative approach to morphological analysis, although more comparative studies to adapt well this technology are needed

Análise por técnicas morfológicas e sequenciação de ADN do pólen atmosférico da Comunidade de Madrid: estudos preliminares

So far, the study of the biological particles in the air we breathe has been mainly directed at knowing and controlling pollen and spores, aeroallergens with a well-known health impact. It has been recently suggested that the air is an ecosystem in itself, and that it probably has its own biota, which would be composed mainly of viruses, bacteria, fungal spores, and pollen. The main objective of the AIRBIOTA-CM project is to study this diverse set of biological particles present in the urban air in the Community of Madrid using a multidisciplinary, innovative and integrative approach.The project is collaboration between ve research groups in very different fields, which aim is to get an overview on the composition and dynamics of biological particles in the air to optimize the methods of sampling and analysis.As a methodological innovation, there is an attempt to apply the breakthroughs in metagenomics to the study of bioaerosols. In addition, new collection strategies have been used, such as the use of unmanned aerial vehicles by designing or adapting new samplers for these vehicles, to sample at different altitudes and in urban geographic locations that might presumably have a different composition of the biota and relevant human activity.The project started in autumn 2014. The preliminary results presented here refer to the comparison of results obtained by means of traditional (light microscopy) and metagenomics methods on atmospheric pollen in the Community of Madrid. The data obtained by both analyses coincide broadly, revealing that the molecular methodology is a good and possible alternative approach to morphological analysis, although more comparative studies to adapt well this technology are needed.Hasta el momento, el estudio de las partículas biológicas en el aire que respiramos, se ha dirigido, principalmente, al conocimiento y control del polen y esporas, aeroalérgenos cuyo impacto en salud es bien conocido. Recientemente la comunidad científica ha sugerido que el aire es un ecosistema en sí mismo, que tendría su propia “aerobiota”, compuesta principalmente por virus, bacterias, esporas de hongos y polen. Para estudiar en conjunto toda esta biodiversidad en el aire urbano en la Comunidad de Madrid, surge el consorcio pluridisciplinar AIRBIOTA-CM, que integra a cinco grupos de investigación de áreas muy diferentes, que pretenden obtener una visión conjunta sobre la composición y dinámica de las partículas biológicas del aire, optimizando los sistemas de muestreo y análisis. Las propuestas más novedosas de las investigaciones iniciadas por este consorcio, son la utilización de técnicas innovadoras de génetica molecular como la secuenciación masiva aplicada en metagenómica (“Next Generation Sequencing”, NGS) y el uso de nuevas estrategias de captación, como el empleo de aeronaves no tripuladas, para muestrear a diferentes alturas y en localizaciones geográficas urbanas que a priori puedan tener una composición diferente de la biota y tengan una actividad humana relevante.El proyecto se inicia en otoño de 2014, y los resultados preliminares que presentamos son los obtenidos mediante el análisis morfológico tradicional y el análisis del ADN del polen de una misma muestra procedente de un captador Burkard. Estos resultados evidencian que los captadores tipo Hirst utilizados por las redes aerobiológicas pueden emplearse también en los estudios de metagenómica, y que los datos obtenidos mediante la aplicación de ambos métodos de análisis coinciden a grandes rasgos, lo que revela que esta nueva metodología constituye una buena aproximación y posible alternativa al análisis morfológico, aunque se necesitan más estudios comparativos para adaptar bien esta tecnología.Até ao momento o estudo das partículas biológicas no ar que respiramos tem sido principalmente dirigido ao conhecimento e controlo de pólen e esporos, alergénicos cujo impacto na saúde é bem conhecido. Recentemente a comunidade científica tem sugerido que o ar é só por si um ecossistema, que tem a sua própria“aerobiota”composta principalmente por vírus, bactérias, esporos de fungos e pólen. Para estudar em conjunto toda esta biodiversidade no ar urbano, surge na Comunidade de Madrid o consórcio pluridisciplinar AIRBIOTA-CM que integra cinco grupos de investigação de áreas muito distintas, visando obter uma visão conjunta sobre a composição e dinâmica das partículas biológicas do ar, otimizando os sistemas de amostragem e análise. As propostas mais recentes de investigação iniciadas por este consórcio são a utilização de técnicas inovadoras de genética molecular como a sequenciação massiva aplicada em metagenómica (“NextGenerationSequencing”, NGS) e o uso de novas estratégias de captação, como a utilização de aeronaves não tripuladas para obtenção de amostras em diferentes alturas e localizações geográficas urbanas que a priori podem ter uma composição diferente da biota e tenham uma atividade humana relevante. O projeto foi iniciado no outono de 2014 e os resultados preliminares apresentados são os obtidos pela análise morfológica tradicional e a pela análise do ADN do pólen de uma mesma amostra procedente de um captador polínico Burkard. Os resultados evidenciam que os captadores tipo Hirst utilizados pelas redes aerobiológicas podem utilizar-se também em estudos de metagenómica e que os dados obtidos mediante a aplicação de ambos os métodos de análise coincidem amplamente, o que revela que esta nova metodologia constitui uma boa aproximação e possível alternativa à análise morfológica, ainda que sejam necessários mais estudos comparativos para uma melhor adaptação desta tecnologia

The future of botanical monography : report from an international workshop, 12–16 March 2012, Smolenice, Slovak Republic

Monographs are fundamental for progress in systematic botany. They are the vehicles for circumscribing and naming taxa, determining distributions and ecology, assessing relationships for formal classification, and interpreting long-term and short-term dimensions of the evolutionary process. Despite their importance, fewer monographs are now being prepared by the newer generation of systematic botanists, who are understandably involved principally with DNA data and analysis, especially for answering phylogenetic, biogeographic, and population genetic questions. As monographs provide hypotheses regarding species boundaries and plant relationships, new insights in many plant groups are urgently needed. Increasing pressures on biodiversity, especially in tropical and developing regions of the world, emphasize this point. The results from a workshop (with 21 participants) reaffirm the central role that monographs play in systematic botany. But, rather than advocating abbreviated models for monographic products, we recommend a full presentation of relevant information. Electronic publication offers numerous means of illustration of taxa, habitats, characters, and statistical and phylogenetic analyses, which previously would have been prohibitively costly. Open Access and semantically enhanced linked electronic publications provide instant access to content from anywhere in the world, and at the same time link this content to all underlying data and digital resources used in the work. Resources in support of monography, especially databases and widely and easily accessible digital literature and specimens, are now more powerful than ever before, but interfacing and interoperability of databases are much needed. Priorities for new resources to be developed include an index of type collections and an online global chromosome database. Funding for sabbaticals for monographers to work uninterrupted on major projects is strongly encouraged. We recommend that doctoral students be assigned smaller genera, or natural portions of larger ones (subgenera, sections, etc.), to gain the necessary expertise for producing a monograph, including training in a broad array of data collection (e.g., morphology, anatomy, palynology, cytogenetics, DNA techniques, ecology, biogeography), data analysis (e.g., statistics, phylogenetics, models), and nomenclature. Training programs, supported by institutes, associations, and agencies, provide means for passing on procedures and perspectives of challenging botanical monography to the next generation of young systematists.Appreciation is expressed to: the Andrew W. Mellon Foundation for financial support that allowed the workshop to be convened; the International Association for Plant Taxonomy (IAPT) for additional financial support for the workshop.http://www.botanik.univie.ac.at/iapt/s_taxon.phpam201

Estudio morfológico comparado de los caracteres generativos en relación con linajes monofiléticos de la familia Parmeliaceae (Lecanorales, Ascomycota)

Estudio morfológico comparado de los caracteres generativos en relación con linajes monofiléticos de la familia "Parmeliaceae" (Lecanorales, Ascomycota)Depto. de Farmacología, Farmacognosia y BotánicaFac. de FarmaciaTRUEunpu

Capillaroscopy and Endopat – Helpful Methods for the Early Assessment of Increased Cardiovascular Risk in Anorexia Nervosa?

Anorexia nervosa (AN) as a life-threatening eating disorder is linked to a high mortality risk with many deaths attributable to cardiovascular etiology. Cardiovascular complications in AN include structural as well as functional cardiac alterations, hemodynamic changes, and peripheral vascular abnormalities. Despite the fact that peripheral vascular abnormalities are not identified as a major AN complication, several manifestations of peripheral vascular dysregulation including Raynaud's phenomenon and endothelial dysfunction have been described and, therefore, warrant attention. This article briefly summarizes so far findings of microvascular alterations in AN patients and presents easily accessible and non-invasive procedures for a microvascular evaluation such as capillaroscopy and endothelium-related peripheral arterial tone (EndoPAT) which could be involved in the clinical diagnostic process for the earliest identification of an increased risk of later cardiovascular complications

Delivery Mode Affects the Sympathetic Nervous System in Healthy Term Newborns

Spontaneous delivery represents an important way triggering the physiological mechanisms essential for a proper postnatal adaptation of a newborn. Autonomic nervous system (ANS) plays a crucial role in this process. There is insufficient data concerning the impact of different delivery mode on ANS in newborns. Therefore, we aimed to study the effect of delivery mode on sympathetic nervous system (SNS) in healthy term newborns measured by electrodermal activity (EDA)

Entropy Analysis of Neonatal Electrodermal Activity during the First Three Days after Birth

The entropy-based parameters determined from the electrodermal activity (EDA) biosignal evaluate the complexity within the activity of the sympathetic cholinergic system. We focused on the evaluation of the complex sympathetic cholinergic regulation by assessing EDA using conventional indices (skin conductance level (SCL), non-specific skin conductance responses, spectral EDA indices), and entropy-based parameters (approximate, sample, fuzzy, permutation, Shannon, and symbolic information entropies) in newborns during the first three days of postnatal life. The studied group consisted of 50 healthy newborns (21 boys, average gestational age: 39.0 ± 0.2 weeks). EDA was recorded continuously from the feet at rest for three periods (the first day—2 h after birth, the second day—24 h after birth, and the third day—72 h after birth). Our results revealed higher SCL, spectral EDA index in a very-low frequency band, approximate, sample, fuzzy, and permutation entropy during the first compared to second and third days, while Shannon and symbolic information entropies were lower during the first day compared to other periods. In conclusion, EDA parameters seem to be sensitive in the detection of the sympathetic regulation changes in early postnatal life and which can represent an important step towards a non-invasive early diagnosis of the pathological states linked to autonomic dysmaturation in newborns

Austroparmelina, a new Australasian lineage in parmelioid lichens (Parmeliaceae, Ascomycota)

Parmelioid lichens form the largest monophyletic group within the Parmeliaceae, a family distributed worldwide. The genus Parmelina was described by Hale (1976a) accommodating species from both hemispheres. We have employed parsimony, Bayesian and maximum likelihood analyses of a combined data set of nu ITS, LSU and mt SSU rDNA sequences to (1) test the monophyly of Parmelina and (2) to elucidate the generic status and phylogenetic position of the Australasian species. Twenty-one new sequences were generated in this study. Our results provide evidence that Parmelina is polyphyletic and the species fall into two major well-supported groups (Groups I and II). The Australasian species of Parmelina and two species of Canoparmelia (C. pruinata and C. macrospora) form Group I, which is nested within the parmotremoid genera of Parmeliaceae, Parmelina species from the northern hemisphere including those from western North America and the Mediterranean basin form a monophyletic group (Group II), which is sister to the East Asian temperate genus Myelochroa. Morphological and chemical features were reevaluated considering this observed phylogeny. Some morphological features like lobe morphology, several traits in the excipulum and geography are useful in characterizing the monophyletic lineage of the Australasian Parmelina/Canoparmelina species. This lineage is described as the new genus Austroparmelina. Thirteen new combinations in the new genus are proposed

Cardiac Autonomic Balance Is Altered during the Acute Stress Response in Adolescent Major Depression—Effect of Sex

Autonomic nervous system (ANS) abnormalities are associated with major depressive disorder (MDD) already at adolescent age. The majority of studies so far evaluated parasympathetic and sympathetic branches of ANS individually, although composite indices including cardiac autonomic balance (CAB) and cardiac autonomic regulation (CAR) seem to measure ANS functioning more comprehensively and thus could provide better psychopathologies’ predictors. We aimed to study CAB and CAR derived from high-frequency bands of heart rate variability and left ventricular ejection time during complex stress response (rest–Go/NoGo task–recovery) in MDD adolescents with respect to sex. We examined 85 MDD adolescents (52 girls, age: 15.7 ± 0.14 yrs.) and 80 age- and sex-matched controls. The MDD group showed significantly reduced CAB compared to controls at rest, in response to the Go/NoGo task, and in the recovery phase. Moreover, while depressed boys showed significantly lower CAB at rest and in response to the Go/NoGo task compared to control boys, depressed girls showed no significant differences in evaluated parameters compared to control girls. This study for the first time evaluated CAB and CAR indices in drug-naïve first-episode diagnosed MDD adolescents during complex stress responses, indicating an altered cardiac autonomic pattern (i.e., reciprocal sympathetic dominance associated with parasympathetic underactivity), which was predominant for depressed boys

Morphological analysis and DNA sequencing of atmospheric pollen in Madrid region: preliminary study

So far, the study of the biological particles in the air we breathe has been mainly directed at knowing and controlling pollen and spores, aeroallergens with a well-known health impact. It has been recently suggested that the air is an ecosystem in itself, and that it probably has its own biota, which would be composed mainly of viruses, bacteria, fungal spores, and pollen. The main objective of the AIRBIOTA-CM project is to study this diverse set of biological particles present in the urban air in the Community of Madrid using a multidisciplinary, innovative and integrative approach.The project is collaboration between ve research groups in very different fields, which aim is to get an overview on the composition and dynamics of biological particles in the air to optimize the methods of sampling and analysis.As a methodological innovation, there is an attempt to apply the breakthroughs in metagenomics to the study of bioaerosols. In addition, new collection strategies have been used, such as the use of unmanned aerial vehicles by designing or adapting new samplers for these vehicles, to sample at different altitudes and in urban geographic locations that might presumably have a different composition of the biota and relevant human activity.The project started in autumn 2014. The preliminary results presented here refer to the comparison of results obtained by means of traditional (light microscopy) and metagenomics methods on atmospheric pollen in the Community of Madrid. The data obtained by both analyses coincide broadly, revealing that the molecular methodology is a good and possible alternative approach to morphological analysis, although more comparative studies to adapt well this technology are needed.</p