Abstract
BackgroundDNA tandem repeats (TRs) are not just popular molecular markers, but are also important genomic elements from an evolutionary and functional perspective. For various genomes, the densities of short TR types were shown to differ strongly among different taxa and genomic regions. In this study we analysed the TR characteristics in the genomes of Daphnia pulex and 11 other eukaryotic species. Characteristics of TRs in different genomic regions and among different strands are compared in details for D. pulex and the two model insects Apis mellifera and Drosophila melanogaster.ResultsProfound differences in TR characteristics were found among all 12 genomes compared in this study. In D. pulex, the genomic density of TRs was low compared to the arthropod species D. melanogaster and A. mellifera. For these three species, very few common features in repeat type usage, density distribution, and length characteristics were observed in the genomes and in different genomic regions. In introns and coding regions an unexpectedly high strandedness was observed for several repeat motifs. In D. pulex, the density of TRs was highest in introns, a rare feature in animals. In coding regions, the density of TRs with unit sizes 7-50 bp were more than three times as high as for 1-6 bp repeats.ConclusionsTRs in the genome of D. pulex show several notable features, which distinguish it from the other genomes. Altogether, the highly non-random distribution of TRs among genomes, genomic regions and even among different DNA-stands raises many questions concerning their functional and evolutionary importance. The high density of TRs with a unit size longer than 6 bp found in non-coding and coding regions underpins the importance to include longer TR units in comparative analyses.
Highlights
DNA tandem repeats (TRs) are not just popular molecular markers, but are important genomic elements from an evolutionary and functional perspective
D. pulex has by far the lowest short tandem repeat (STR) density with a value of almost one third of A. mellifera
Even though the mean repeat length depends crucially on the search parameters for TRs, general trends can be seen in this comparison: STRs are shortest in D. pulex and longest in M. musculus, see Figure 1b and Table 2
Summary
DNA tandem repeats (TRs) are not just popular molecular markers, but are important genomic elements from an evolutionary and functional perspective. The planktonic microcrustacean Daphnia pulex is a key species in lake ecosystems and forms an important link between the primary producers and the carnivores It is among the best-studied animals in ecological, toxicological, and evolutionary research [1,2,3,4]. TR loci in general, and micro- and minisatellite loci in particular, are often highly dynamic genomic regions with a high rate of length-altering mutations [14,15] They are frequently used as informative molecular markers in population genetic, forensic, and molecular ecological studies [6,16,17,18,19,20,21,22]. Due to their high abundance in genomes, microsatellites (STRs) are useful markers for genome mapping studies [23,24,25,26]
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