Abstract
Knowledge of the fascinating world of DNA repeats is continuously being enriched by newly identified elements and their hypothetical or well-established biological relevance. Genomic approaches can be used for comparative studies of major repeats in any group of genomes, regardless of their size and complexity. Such studies are particularly fruitful in large genomes, and useful mainly in crop plants where they provide a rich source of molecular markers or information on indispensable genomic components (e.g., telomeres, centromeres, or ribosomal RNA genes). Surprisingly, in Allium species, a comprehensive comparative study of repeats is lacking. Here we provide such a study of two economically important species, Allium cepa (onion), and A. sativum (garlic), and their distantly related A. ursinum (wild garlic). We present an overview and classification of major repeats in these species and have paid specific attention to sequence conservation and copy numbers of major representatives in each type of repeat, including retrotransposons, rDNA, or newly identified satellite sequences. Prevailing repeats in all three studied species belonged to Ty3/gypsy elements, however they significantly diverged and we did not detect them in common clusters in comparative analysis. Actually, only a low number of clusters was shared by all three species. Such conserved repeats were for example 5S and 45S rDNA genes and surprisingly a specific and quite rare Ty1/copia lineage. Species-specific long satellites were found mainly in A. cepa and A. sativum. We also show in situ localization of selected repeats that could potentially be applicable as chromosomal markers, e.g., in interspecific breeding.
Highlights
The genus Allium (Amaryllidaceae) includes more than 800 species, making it one of the largest monocotyledonous genera
Comparative Analysis of Short Tandem Repeat Motifs with A Length Between Three and 52 bp. In this part of the article, we describe results related to tandem repeats with a motif length between three and 52 bp, that are difficult to analyze in RepeatExplorer because of their low complexity and abundancy in the genome
The genome of A. ursinum was similar to A. sativum in total genomic proportion of of abundancy and the number of motifs up to a length of ca. 10 nt, as can be seen in A. cepa at 4 nt, and at 5 nt in A. ursinum and A. sativum (Figures 2,3)
Summary
The genus Allium (Amaryllidaceae) includes more than 800 species, making it one of the largest monocotyledonous genera. For the purpose of this study we selected the two species which, according to the Food and Agriculture Organization of the United Nations (FAO), make the largest contribution to food production, A. cepa and A. sativum, (onion and garlic), and we included one distant relative, A. ursinum (wild garlic), which is of only marginal economic importance, but is interesting for several other reasons. It grows relatively abundantly and is native to Europe and Asia.
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