Frequent non-reciprocal exchange in microsatellite-containing-DNA-regions of vertebrates |
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Authors: | J O Ziegler M Wälther T R Linzer G Segelbacher M Stauss C Roos V Loeschcke and J Tomiuk |
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Institution: | Division of General Genetics, Department of Medical Genetics, Institute of Human Genetics, University of Tübingen, Tübingen, Germany;;Max Planck Institute for Ornithology, Vogelwarte Radolfzell, Schloss Möggingen, Radolfzell, Germany;;German Primate Center, Primate Genetics, Gene Bank of Primates, Goettingen, Germany;;Department of Biological Sciences, Ecology and Genetics, University of Aarhus, Aarhus C, Denmark |
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Abstract: | Microsatellites are DNA-fragments containing short repetitive motifs with 2–10 bp. They are highly variable in most species and distributed throughout the whole genome. It is broadly accepted that their high degree of variability is closely associated with mispairing of DNA-strands during the replication phase, termed slippage, although recombination is also observed. The aim of this study is to demonstrate evidence that non-reciprocal recombination processes changing the total genomic structure are common in microsatellites and flanking regions. We sequenced DNA fragments from birds in which microsatellites are located, and analyzed the structure of the microsatellites and their flanking regions. Additionally, other data and those from literature of three microsatellite regions of primates coding for the Ataxin-2, the Huntingtin and the TATA-box binding protein were analyzed. The structures of seven avian and three primate microsatellites support the hypothesis that non-reciprocal recombination is a common process that may also contribute considerably to the variation at microsatellite loci. We conclude that results of population genetic studies that are analyzed statistically with methods based on stepwise mutation models should be interpreted with caution if no detailed information on the allelic variation of microsatellites is available. |
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Keywords: | Slippage gene conversion ascertainment bias mutation bias birds primates |
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