34 research outputs found

    dom_ref_orientalis_26SSR_structure

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    There are three files that we used for STRUCTURE analyses with the 26SSR markers that allowed us to detect hybrids and to do the following intra-species TESS analyses. Each file include wild species individuals and 40 M. domestica reference (last 40 individuals in each input file): (1) dom_ref_orientalis_26SSR_structure: the M. orientalis samples followed by the 40 M. domestica reference (2) dom_ref_sieversii_26SSR_structure: the M. sieversii samples followed by the 40 M. domestica reference (3) dom_ref_sylvestris_26SSR_structure: the M.sylvestris samples followed by the 40 M. domestica referenc

    dom_ref_sieversii_26SSR_structure

    No full text
    There are three files that we used for STRUCTURE analyses with the 26SSR markers that allowed us to detect hybrids and to do the following intra-species TESS analyses. Each file include wild species individuals and 40 M. domestica reference (last 40 individuals in each input file): (1) dom_ref_orientalis_26SSR_structure: the M. orientalis samples followed by the 40 M. domestica reference (2) dom_ref_sieversii_26SSR_structure: the M. sieversii samples followed by the 40 M. domestica reference (3) dom_ref_sylvestris_26SSR_structure: the M.sylvestris samples followed by the 40 M. domestica referenc

    Summary of genetic variation within each population.

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    <p>N: Number of individuals per populations, ASS Self Pop: percentage of individuals assigned to its own population (Paetkau test), <i>H<sub>O</sub></i> and <i>H<sub>E</sub></i>: observed and expected heterozygosities, respectively, <i>F<sub>IS</sub></i>: inbreeding coefficient, <i>A<sub>r</sub></i>: allelic richness averaged across loci, estimated by rarefaction using a standardized sample size of 4, *: <i>P</i>-value<0.001.</p
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