4 research outputs found

    Classification and Characterization of Species within the Genus <i>Lens</i> Using Genotyping-by-Sequencing (GBS)

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    <div><p>Lentil (<i>Lens culinaris</i> ssp. <i>culinaris</i>) is a nutritious and affordable pulse with an ancient crop domestication history. The genus <b>Lens</b> consists of seven taxa, however, there are many discrepancies in the taxon and gene pool classification of lentil and its wild relatives. Due to the narrow genetic basis of cultivated lentil, there is a need towards better understanding of the relationships amongst wild germplasm to assist introgression of favourable genes into lentil breeding programs. Genotyping-by-sequencing (GBS) is an easy and affordable method that allows multiplexing of up to 384 samples or more per library to generate genome-wide single nucleotide Polymorphism (SNP) markers. In this study, we aimed to characterize our lentil germplasm collection using a two-enzyme GBS approach. We constructed two 96-plex GBS libraries with a total of 60 accessions where some accessions had several samples and each sample was sequenced in two technical replicates. We developed an automated GBS pipeline and detected a total of 266,356 genome-wide SNPs. After filtering low quality and redundant SNPs based on haplotype information, we constructed a maximum-likelihood tree using 5,389 SNPs. The phylogenetic tree grouped the germplasm collection into their respective taxa with strong support. Based on phylogenetic tree and STRUCTURE analysis, we identified four gene pools, namely <i>L</i>. <i>culinaris/L</i>. <i>orientalis/L</i>. <i>tomentosus</i>, <i>L</i>. <i>lamottei/L</i>. <i>odemensis</i>, <i>L</i>. <i>ervoides</i> and <i>L</i>. <i>nigricans</i> which form primary, secondary, tertiary and quaternary gene pools, respectively. We discovered sequencing bias problems likely due to DNA quality and observed severe run-to-run variation in the wild lentils. We examined the authenticity of the germplasm collection and identified 17% misclassified samples. Our study demonstrated that GBS is a promising and affordable tool for screening by plant breeders interested in crop wild relatives.</p></div

    Detailed steps performed by automated GBS pipeline.

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    <p>(A) De-multiplex samples: Raw paired-end Illumina reads are assigned to a sample using barcode sequences, which are subsequently trimmed. (B) Trim and filter reads: De-multiplexed paired-end reads are trimmed for base quality and Illumina adaptors. (C) Align reads to a reference genome. (D) Raw SNP calls: Every position in each sample’s alignment is scanned to determine the probability of a variant.</p

    Phylogenetic relationship within genus <i>Lens</i>.

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    <p>(A) Dendrogram generated using Neighbour-Joining model based on results from first GBS library. (B) A maximum-likelihood tree based on combined results from two GBS libraries.</p

    Gene pool classification of lentil based on STRUCTURE results.

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    <p>(A) Graphical representation of STRUCTURE results indicates two clusters (K = 2) in genus <i>Lens</i> based on the highest delta K score. (B) Additional STRUCTURE analysis revealed substructures (K = 3) within individuals of <i>L</i>. <i>odemensis</i>, <i>L</i>. <i>lamottei</i>, <i>L</i>. <i>ervoides</i> and <i>L</i>. <i>nigricans</i>. (C) The new gene pool classification proposed in this study is shown next to a simplified maximum-likelihood tree of genus <i>Lens</i>. Accession IG 72815 is marked with asterisk.</p
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