Widespread sex differences in gene expression and splicing in the adult human brain

There is strong evidence to show that men and women differ in terms of neurodevelopment, neurochemistry and susceptibility to neurodegenerative and neuropsychiatric disease. The molecular basis of these differences remains unclear. Progress in this field has been hampered by the lack of genome-wide information on sex differences in gene expression and in particular splicing in the human brain. Here we address this issue by using post-mortem adult human brain and spinal cord samples originating from 137 neuropathologically confirmed control individuals to study whole-genome gene expression and splicing in 12 CNS regions. We show that sex differences in gene expression and splicing are widespread in adult human brain, being detectable in all major brain regions and involving 2.5% of all expressed genes. We give examples of genes where sex-biased expression is both disease-relevant and likely to have functional consequences, and provide evidence suggesting that sex biases in expression may reflect sex-biased gene regulatory structures

Characterization of RNase MRP RNA and novel snoRNAs from Giardia intestinalis and Trichomonas vaginalis

<p>Abstract</p> <p>Background</p> <p>Eukaryotic cells possess a complex network of RNA machineries which function in RNA-processing and cellular regulation which includes transcription, translation, silencing, editing and epigenetic control. Studies of model organisms have shown that many ncRNAs of the RNA-infrastructure are highly conserved, but little is known from non-model protists. In this study we have conducted a genome-scale survey of medium-length ncRNAs from the protozoan parasites <it>Giardia intestinalis </it>and <it>Trichomonas vaginalis</it>.</p> <p>Results</p> <p>We have identified the previously 'missing' <it>Giardia </it>RNase MRP RNA, which is a key ribozyme involved in pre-rRNA processing. We have also uncovered 18 new H/ACA box snoRNAs, expanding our knowledge of the H/ACA family of snoRNAs.</p> <p>Conclusions</p> <p>Results indicate that <it>Giardia intestinalis </it>and <it>Trichomonas vaginalis</it>, like their distant multicellular relatives, contain a rich infrastructure of RNA-based processing. From here we can investigate the evolution of RNA processing networks in eukaryotes.</p

Análise comparativa da função respiratória de indivíduos hígidos em solo e na água

A mensuração da função respiratória oferece informações essenciais para caracterizar anormalidades pulmonares. A pressão hidrostática da água atua no tórax submerso de diversas formas, causando alterações no sistema respiratório. O objetivo deste estudo foi analisar comparativamente variáveis que avaliam a função respiratória - volume minuto (Vmin), volume corrente (Vc), capacidade vital (Cvital) e frequência respiratória (FR) - de voluntárias no solo e com o tórax submerso em piscina terapêutica aquecida. A função respiratória de 30 voluntárias saudáveis (20,9±2,1 anos; 1,64±0,07 m; 58,8±9,2 kg; índice de massa corporal 21,78±2,63 kg/m²) foi avaliada por meio de ventilômetro em solo e aos 1 e 20 minutos de imersão, com água ao nível dos ombros, em posição sentada. Após 20 minutos de imersão, foi registrado aumento estatisticamente significativo no Vmin (p=0,015) e Vc (p=0,027); e uma redução estatisticamente significativa (p=0,016) na Cvital 1 minuto após imersão, em relação aos valores obtidos em solo. O maior tempo de imersão alterou assim os valores obtidos em solo, com exceção da Cvital, que sofreu alteração significativa desde o primeiro minuto de imersão. Não foram encontradas diferenças significativas entre os valores obtidos após 1 e 20 minutos na água. O estudo permite concluir que a imersão do tórax em piscina aquecida provocou aumento no Vmin e Vc e diminuição na Cvital de voluntárias saudáveis.Measuring respiratory function provides essential information to assess pulmonary changes. Effects of water hydrostatic pressure on the submerged chest cause changes in the respiratory system. The purpose here was to compare respiratory function variables - minute volume (MV), tidal volume (TV), vital capacity (Vitalc), and respiratory rate (RR) - on the ground and with chest submerged in water. Respiratory function of 30 healthy female volunteers (mean age 20.93 ± 2.11; weight 58.8±9.2 kg; body mass index 21.78±2.63 kg/m²) was assessed by spirometry on the ground, and 1 and 20 minutes after immersion in warm water at shoulder level in the sitting position. As compared to ground levels, statistically significant increases were found in MV (p=0.015) and TV (p=0.027) 20 minutes after immersion, as well as a significant decrease (p=0.016) in Vitalc one minute after immersion. Longer time immersion has thus altered values obtained on ground, except for Vitalc, which showed significant reduction on the first minute after chest immersion. Comparison between variable values obtained 1 and 20 minutes in water showed no significant difference. It may thus be said that chest submersion in warm water caused an increase in MV and VT and a decrease in Vitalc of healthy subjects