18 research outputs found
Data for paternity analyses, female fitness and performance of seedlings from experimental populations of two floral morphs of Narcissus papyraceus in south Spain
Data for paternity analyses, female fitness and performance of seedlings from experimental populations of two floral morphs of Narcissus papyraceus in south Spai
Overview of the <i>de novo</i> assembly of the transcriptome of <i>P. pruinosa</i>.
1<p>N50 size is a weighted median statistic indicating that 50% of the entire assembly resides in contigs/scaffolds of a length at least X.</p
GO categories of the <i>P.</i><i>pruinosa</i> all-unigenes.
<p>WEGO was used to produce the graph. The results are summarized in ‘biological process’, ‘cellular component’, and ‘molecular function’. The percentage (left y-axis) and total number (right y-axis) of all-unigenes in each category (the third GO level) are shown. In total, 11 587 all-unigenes have been assigned. Y axis is in log(10) scale.</p
GO categories over-represented among the homologous genes of the orthologs with positive selection (P-values from the Fisher's exact test).
<p>GO categories over-represented among the homologous genes of the orthologs with positive selection (P-values from the Fisher's exact test).</p
Length distribution of the all-unigenes with Nr annotations.
<p>More than 80% of the all-unigenes over 500 bp had BLAST hits in the Nr database.</p
Functional annotation of high-quality unique sequences by sequence similarity (e-value<1e-5).
<p>Transcriptome annotation of <i>P. euphratica</i> was reported by Qiu et al <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0066370#pone.0066370-Qiu1" target="_blank">[24]</a>. GO was searched by Blast2GO.</p
Distribution of <i>Ka</i> and <i>Ks</i> for 2 859 pairs of the putative orthologs.
<p>The orthologs with <i>Ka/Ks</i>>1 fall above the red line while those with <i>Ka/Ks</i> = 0.5−1 fall between the green and red lines.</p
Measures of phylogenetic diversity of Caatinga plants in sites (municipality, state) on different edaphic environments (crystalline, sedimentary, inselberg), NE Brazil: nearest taxon index for all species (NTI<sub>all</sub>), woody species (NTI<sub>wood</sub>), and herbaceous species (NTI<sub>herb</sub>).
<p>Values in bold are those indicating significant clustering (> 1.96) or significant overdispersion (<- 1.96).</p><p>Measures of phylogenetic diversity of Caatinga plants in sites (municipality, state) on different edaphic environments (crystalline, sedimentary, inselberg), NE Brazil: nearest taxon index for all species (NTI<sub>all</sub>), woody species (NTI<sub>wood</sub>), and herbaceous species (NTI<sub>herb</sub>).</p
Partitioning of the variation explained solely by climate and edaphic environment for each phylogenetic diversity measure [net relatedness index for all species (NRI<sub>all</sub>), woody species (NRI<sub>wood</sub>), and herbaceous species (NRI<sub>herb</sub>); nearest taxon index for all species (NTI<sub>all</sub>), woody species (NTI<sub>wood</sub>), and herbaceous species (NTI<sub>herb</sub>)].
<p>Adjusted R<sup>2</sup> (Legendre and Legendre 2012, chapter 10) of the multiple regression of each phylogenetic diversity measure against climate variables and edaphic environment are shown. All values of adjusted R<sup>2</sup> significantly different from zero (P<0.05) are in bold.</p><p>Partitioning of the variation explained solely by climate and edaphic environment for each phylogenetic diversity measure [net relatedness index for all species (NRI<sub>all</sub>), woody species (NRI<sub>wood</sub>), and herbaceous species (NRI<sub>herb</sub>); nearest taxon index for all species (NTI<sub>all</sub>), woody species (NTI<sub>wood</sub>), and herbaceous species (NTI<sub>herb</sub>)].</p
Studies presenting floristic lists (associated with Raunkiaer’s life-forms data) used in our analyses.
<p>Studies presenting floristic lists (associated with Raunkiaer’s life-forms data) used in our analyses.</p