49 research outputs found
Se alquila 'alejamiento' turĂstico sobre cementerio indio
La noticia aparecĂa hace unos meses en losmedios: en el barrio de Poble Sec (Barcelona) estaban construyendo un edificio con seis apartamentos plurifamiliares de madera dirigidos a un mercado de turismo responsable. La promotora de estos apartamentos explicaba que se oponĂa al "turismo de borrachera" y a la "masificaciĂłn de los barrios" y que apostaba por otros valores como son la "ecologĂa" y lo "social". Todo un manifiesto[...] La notĂcia apareixia fa uns mesos en losmedios: al barri de Poble Sec (Barcelona) estaven construint un edifici amb sis apartaments plurifamiliars de fusta dirigits a un mercat de turisme responsable. La promotora d'aquests apartaments explicava que s'oposava al 'turisme de borratxera' i de la 'massificaciĂł dels barris' i que apostava per altres valors com sĂłn la 'ecologia' i el 'social'. Tot un manifest[...
ZipArchive of Supplementary Material for nSSR detection, including ReadMe
This ZipArchive contains all files (data, R scripts) required for performing the nSSR search with the example data of Melanargia galathea, including a ReadMe for explanation
Thiel-Egenter_etal_MolEcol2009_Data.zip
AFLP scoring and sampling location information of two alpine plant species, Geum montanum and Geum reptans. Details given in separate ReadMe file
Qumran Calendars and the Creation::A Study of 4Q317 (4QCrypticA Lunisolar Calendar)
Sequences of the 54,870 probes used in the exome capture. The probe name consists of the sequence number (subseq, alt1 and al2 refer to the second (alternative) approach used for probe design), contig name, the probes base region (start and stop position within the contig, 150bp), and the number of the tiled probe of the probe base
Effect of sequencing coverage on the accuracy of the Pool-Seq in <i>Arabidopsis halleri</i>.
<p>a) Mean difference between allele frequencies determined by Illumina Pool-Seq and individual pyrosequencing. b) Determination coefficient of the linear regression (<i>R</i><sup>2</sup>) between the two allele frequency estimates. Data derive from a resampling analysis with 1000 iterations, in which we performed random draws of the reads (mapped to <i>Arabidopsis thaliana</i>) in 27 SNP/population combinations. Error bars represent standard deviation.</p
Validation of SNP allele frequencies determined by next-generation sequencing of pooled samples of <i>Arabidopsis halleri</i>.
<p>Comparison between major allele frequencies calculated from individual genotyping using pyrosequencing (PyroMark) and based on pooled population samples (Pool-Seq) determined with Illumina. In <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0080422#pone-0080422-g001" target="_blank">Figure 1a</a>, allele frequencies from the Pool-Seq were calculated from reads mapped to the publicly available <i>Arabidopsis thaliana</i> genome. In <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0080422#pone-0080422-g001" target="_blank">Figure 1b</a>, the reads were mapped to our own <i>de </i><i>novo</i> draft genome of <i>A. halleri</i>. Shown are the results of SNPs from six genes for all three populations studied. The dashed line represents the expected 1:1 proportion. Open circles represent comparisons including incomplete date from the pyrosequencing, filled circles refer to comparisons with complete data. Note that some data points are overlapping.</p
Phylogenetic trees of <i>Jacaranda</i> populations based on different components of simple sequence repeat (SSR) data.
<p>SSR variation (A), amplicon size variation (B), flanking region (FR) sequence variation (C) and amplicon sequence variation (D). Each type of data was analysed according to a pair of suitable genetic distance estimators: F<sub>ST</sub>, suitable for loci following the infinite allele model (IAM); R<sub>ST</sub>, for loci following the stepwise mutation model (SMM); and N<sub>ST</sub>, for loci following the infinite site model (ISM) model. There are four geographic populations: Counami (<i>C</i>), Paracou (<i>P</i>) and Saint-Laurent (<i>S</i>) in French Guiana; Tapajos (<i>T</i>) in Brazil. Note that scales are not the same among trees.</p
Polymorphism at each simple sequence repeat (SSR) locus differentiated by segments of the DNA amplicon. SSR1, SSR2 and SSR3: respectively first, second and third SSR occurring in each amplicon (see figure S1 for details on each amplicon’s sequence); FR: flanking regions; <i>H<sub>e</sub></i>: Nei’s genetic diversity; A: number of alleles; h: number of haplotypes. Data sets: C, <i>Citrus</i>; J, <i>Jacaranda</i>; Q, <i>Quercus</i>.
<p>Polymorphism at each simple sequence repeat (SSR) locus differentiated by segments of the DNA amplicon. SSR1, SSR2 and SSR3: respectively first, second and third SSR occurring in each amplicon (see <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0040699#pone.0040699.s001" target="_blank">figure S1</a> for details on each amplicon’s sequence); FR: flanking regions; <i>H<sub>e</sub></i>: Nei’s genetic diversity; A: number of alleles; h: number of haplotypes. Data sets: C, <i>Citrus</i>; J, <i>Jacaranda</i>; Q, <i>Quercus</i>.</p
Alignment of a subset of DNA fragments at simple sequence repeat (SSR) loci Jc3H10 (<i>Jacaranda copaia</i>) (A) and QrZAG30 (<i>Quercus robur</i>) (B).
<p>Numbers in the top line indicate positions relative to the consensus sequence of (A) 190 bp and (B) 247 bp. Bold nucleotides in brackets indicate SSR motifs and their number of repeats. Dashes indicate gaps, highlighted nucleotides in green (light grey*) indicate indels of one to three bases, highlighted nucleotides in red (dark grey*) mark mutations from one base to another, and yellow (light grey*) boxes indicate groups of insertion/deletions longer than three bases and considered as a single mutational event. * In shades-of-gray printouts.</p