4 research outputs found
3-Nitrotyrosine, a marker of nitrosative stress, is increased in breath condensate of allergic asthmatic children
BACKGROUND:
Asthmatic patients have high exhaled nitric oxide (NO) levels. NO-mediated inflammatory actions are mainly due to NO conversion into reactive nitrogen species, which can lead to nitrotyrosine formation. The aim of this study was to assess 3-nitrotyrosine (3-NT) levels in exhaled breath condensate (EBC) of asthmatic and healthy children and to investigate whether there is any relationship with exhaled NO (FE(NO)) and lung function.
METHODS:
The study included 20 asthmatic children (10 steroid-naive with intermittent asthma, 10 steroid-treated with unstable persistent asthma) and 18 healthy controls. They underwent FE(NO) measurement, EBC collection and spirometry. 3-NT was measured by a new liquid chromatography-tandem mass spectrometry (LC-MS/MS) method in isotopic dilution.
RESULTS:
The median EBC concentration of 3-NT (expressed as nitrotyrosine/tyrosine ratio x 100) in asthmatic children was fivefold higher than in healthy subjects [0.23% (0.12-0.32) vs 0.04% (0.02-0.06), P < 0.001] with no difference between steroid-naive and unstable steroid-treated asthmatic patients. FE(NO) levels were higher in asthmatic [44.6 ppb (36.0-66.0)] than in healthy children [7.5 ppb (6.0-8.8), P < 0.001]. No correlation was found among 3-NT, FE(NO) and lung function parameters.
CONCLUSION:
Nitrotyrosine is high in EBC of asthmatic children and could be considered as a noninvasive marker of nitrosative events in the airways
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LT‐Brazil: a database of leaf traits across biomes and vegetation types in Brazil
Motivation
Leaf traits represent an important component of plant functional strategies, and those related to carbon fixation and nutrient acquisition form the leaf economics spectrum. However, observations of functional leaf traits are underrepresented in tropical regions in comparison with those in temperate areas. Brazil, a country with continental scale and vast biodiversity is a timely example, where many biomes are impacted by human activities and climate change. However, leaf traits relevant to understand vegetation responses to these impacts remain poorly quantified for many species found in the country. We compiled an extensive data set of four functional leaf traits for native woody species occurring in the Brazilian territory. In addition to trait observations, sampling dates and geo-references were compiled and climatic parameters and soil properties of each sampling site were extracted from several databases.
Main types of variables contained
The LT-Brazil data set contains 3,479, 1,216, 775 and 775 clean observations of leaf mass per area, leaf nitrogen (N) concentration per unit mass, leaf phosphorus (P) concentration per unit mass, and leaf N : P ratio, respectively, from native woody species, encompassing information of biome, vegetation, taxonomic data, geographical coordinates, climatic parameters, as well as soil properties.
Spatial location and grain
We compiled trait observations from 223 sites under native vegetation distributed in all main biomes (i.e., Amazônia, Caatinga, Cerrado, Mata Atlântica, Pampa and Pantanal) across the Brazilian territory.
Time period and grain
The data represent information published and/or sampled during the last 25 years.
Major taxa and level of measurement
Our compilation was focused on trait data observed for native woody species, excluding monocots, palm trees, herbs, and hemiparasitic plants. Thus, 108, 478 and 1,321 botanical families, genera and species were included, covering c. 9% of the woody angiosperm flora of Brazil.
Software format
Data are provided as comma-separated value (.csv) files
Influência do hábitat na estrutura da comunidade de macroinvertebrados aquáticos associados às raízes de Eichhornia crassipes na região do Lago Catalão, Amazonas, Brasil Influence of habitat on community structure of macroinvertebrate associated with roots of Eichhornia crassipes in the Lake Catalão, Amazonas, Brazil
Por possuírem ciclos de vida curtos, os macroinvertebrados aquáticos podem responder rapidamente às modificações ambientais, alterando a estrutura das suas populações e comunidades. O objetivo deste estudo foi determinar se há relação entre a composição de macroinvertebrados aquáticos associados a bancos de Eichhornia crassipes o gradiente de condutividade elétrica da água e a biomassa das raízes destes bancos. No pico da cheia de 2005, 21 bancos de macrófitas aquáticas flutuantes dominados por E. crassipes foram amostrados no rio Negro (baixa condutividade < 30 µS cm-1), na confluência entre os rios Negro e Solimões (média condutividade > 30 µS cm-1 e < 50 µS cm-1), e no rio Solimões (alta condutividade > 50 µS cm-1). Foram encontrados 1707 macroinvertebrados aquáticos, distribuídos em 14 ordens e 35 famílias. A abundância de invertebrados aquáticos foi maior em bancos na confluência das águas. O aumento da biomassa das raízes de E. crassipes levou a um aumento da abundância e da riqueza de famílias de macroinvertebrados. A abundância dos coletores-catadores, coletores-filtradores e raspadores variou com o tipo de água, e apenas a abundância dos coletores-catadores e coletores-filtradores variou em função da biomassa das raízes. A riqueza de famílias dos raspadores variou em função do tipo de água. A organização da comunidade depende do gradiente de biomassa de raízes, indicando a importância da estrutura do hábitat para o estabelecimento dos macroinvertebrados.<br>Owing to their short life cycles aquatic macroinvertebrates may quickly respond to environmental modifications by changing the structure of their populations and communities. The aim of this study was to determine the relationship between the composition of aquatic macroinvertebrates associated with Eichhornia crassipes stands, the gradient of water conductivity and biomass of the roots of these stands. At the peak of the floods of 2005, 21 banks of floating aquatic macrophytes dominated by E. crassipes were sampled in the Solimões River (high conductivity > 50 µS cm-1), the confluence of these the rivers Solimões and Negro (medium conductivity > 30 µS cm-1 and < 50 µS cm-1) and Negro River (low conductivity < 30 µS cm-1). A total of 1707 aquatic macroinvertebrates were found, divided into 14 orders and 35 families. The abundance of aquatic invertebrates was higher in stands in the rivers confluence. The increased biomass of roots of E. crassipes led to an increase of abundance and richness of families of macroinvertebrates. The abundance of collector-gatherers, filter feeders and collector-scrapers varied with the type of water; only the abundance of collector-gatherers and collector-filter-varied with the root biomass. The abundance of collector-gatherers, filter feeders and collector-scrapers varied with the type of water, and only the richness of collectors and filter feeders varied with the root biomass. The family richness of collector-scrapers varied with the type of water. The organization of the community depends on the gradient of root biomass, showing that habitat structure is an important factor for the establishment of macroinvertebrates