Odds ratio of occurrence of pain, postural changes, and disabilities of violinists.

The objective of this study is to evaluate the odds ratio of occurrence of pain, postural changes, and disabilities of violinists. Thirty-eight violinists were assessed. Photographs from anterior, posterior, and lateral views were taken and analyzed using Software of Postural Analysis. Pain was assessed by the Visual Analogue Pain Scale and the musculoskeletal disability of the arm, shoulder, and hand questionnaire (DASH). A logistic regression model was employed and all variables related to posture, age, gender, hours of practice, and duration of practice were considered. The results regarding the VAS and DASH were analyzed using multivariate techniques. The most important variables for the discrimination between the groups regarding the VAS scores were head and shoulder and thoracic kyphosis. For the DASH index, the key variables were the lateral spinal deviation and the head tilt. The odds ratio of occurrence pain was associated with the duration of the practice and the following postural variables: shoulder asymmetries, head postures, and lumbar lordosis. Scapular postures and thoracic kyphosis were associated with hours of practice, and the scapular postures with the duration of practice. This article provides new evidence of occurrence of pain, postural changes and disabilities in violinists. The odds ratio of occurrence pain was associated with the duration of the professional practice.

Chromosomal distribution and evolution of abundant retrotransposons in plants: gypsy elements in diploid and polyploid Brachiaria forage grasses.

Like other eukaryotes, the nuclear genome of plants consists of DNA with a small proportion of low-copy DNA (genes and regulatory sequences) and very abundant DNA sequence motifs that are repeated thousands up to millions of times in the genomes including transposable elements (TEs) and satellite DNA. Retrotransposons, one class of TEs, are sequences that amplify via an RNA intermediate and reinsert into the genome, are often the major fraction of a genome. Here, we put research on retrotransposons into the larger context of plant repetitive DNA and genome behaviour, showing features of genome evolution in a grass genus, Brachiaria, in relation to other plant species. We show the contrasting amplification of different retroelement fractions across the genome with characteristics for various families and domains. The genus Brachiaria includes both diploid and polyploid species, with similar chromosome types and chromosome basic numbers x = 6, 7, 8 and 9. The polyploids reproduce asexually and are apomictic, but there are also sexual species. Cytogenetic studies and flow cytometry indicate a large variation in DNA content (C-value), chromosome sizes and genome organization. In order to evaluate the role of transposable elements in the genome and karyotype organization of species of Brachiaria, we searched for sequences similar to conserved regions of TEs in RNAseq reads library produced in Brachiaria decumbens. Of the 9649 TE-like contigs, 4454 corresponded to LTR-retrotransposons, and of these, 79.5 % were similar to members of the gypsy superfamily. Sequences of conserved protein domains of gypsy were used to design primers for producing the probes. The probes were used in FISH against chromosomes of accesses of B. decumbens, Brachiaria brizantha, Brachiaria ruziziensis and Brachiaria humidicola. Probes showed hybridization signals predominantly in proximal regions, especially those for retrotransposons of the clades CRM and Athila, while elements of Del and Tat exhibited dispersed signals, in addition to those proximal signals. These results show that the proximal region of Brachiaria chromosomes is a hotspot for retrotransposon insertion, particularly for the gypsy family. The combination of high-throughput sequencing and a chromosome-centric cytogenetic approach allows the abundance, organization and nature of transposable elements to be characterized in unprecedented detail. By their amplification and dispersal, retrotransposons can affect gene expression; they can lead to rapid diversification of chromosomes between species and, hence, are useful for studies of genome evolution and speciation in the Brachiaria genus. Centromeric regions can be identified and mapped, and retrotransposon markers can also assisting breeders in the developing and exploiting interspecific hybrids.

Adaptive leaf anatomical characteristics of Brachiaria ruziziensis (Poaceae) genotypes in different environments / Características anatômicas foliares adaptativas de genótipos de Brachiaria ruziziensis (Poaceae) em diferentes ambientes

Studies on morphological plasticity are extremely important to plant breeding seeking to optimize genotype interactions with their environments. The present study evaluated 38 genotypes of Brachiaria ruziziensis cultivated during the rainy (October to March) and dry (April to September) seasons and examined variations in their anatomical characteristics. Fully expanded leaves were collected and fixed in FAA70 (formaldehyde: acetic acid: ethyl alcohol) for 72h and subsequently stored in 70% alcohol. Median sections of leaf blades were examined and evaluated according to traditional plant anatomical procedures. Genotypes 15, 27, 40, 53, and 90 demonstrated interactions with the environment in five of the anatomical characteristics evaluated; genotypes 1 and 33 presented no plasticity in any of the characteristics examined. Except for the thickness of abaxial (ABT) and adaxial (ADT) epidermal surfaces, the genotypes showed different behaviors for all the other characteristics evaluated: mesophyll thickness (MT), xylem diameter (XD), distance between bundles (DB), number of bundles (NB), number of bulliform cells (NBC), sclerenchyma tissue area (%L), and bulliform cell area (ABC).

O estudo da plasticidade morfológica é de grande importância para os programas de melhoramento que desejam obter materiais promissores quando apresentam a interação genótipo com ambiente. O objetivo deste trabalho foi avaliar 38 genótipos de Brachiaria ruziziensis cultivados na época das águas (outubro a março) e da seca (abril a setembro) e observar variações nas características anatômicas nas diferentes estações. Folhas completamente expandidas foram coletadas e fixadas em FAA70 por 72h e armazenadas em álcool 70%. Amostras foliares na parte mediana foram avaliadas de acordo com os procedimentos usuais de anatomia vegetal. Os genótipos 15, 27, 40, 53, e o 90 apresentaram interação com o ambiente em cinco características avaliadas. Os genótipos 1 e 33 não apresentaram plasticidade para nenhuma mensuração. Exceto para espessura das faces abaxial (EBA) e abaxial (EDA) da epiderme, os genótipos apresentaram comportamento diferente para as demais características avaliadas: espessura do mesofilo (EM), diâmetro do xilema (DX), distancia entre feixes (DF), número de feixes (NF) e de células buliformes (NCB), área do tecido esclerenquimático (%L) e das células buliforme (ACB).