Computational and Experimental Characterization of Physically Clustered Simple Sequence Repeats in Plants

Computational and Experimental Characterization of Physically Clustered Simple Sequence Repeats in Plants

Linda Cardle^a, Luke Ramsay^a, Dan Milbourne^a, Malcolm Macaulay^a, David Marshall^a, and Robbie Waugh^a
^a Scottish Crop Research Institute, Dundee DD2 5DA, Scotland, United Kingdom

Corresponding author: Robbie Waugh, Scottish Crop Research Institute, Invergowrie, Dundee DD2 5DA, United Kingdom., r.waugh{at}scri.sari.ac.uk (E-mail)

Communicating editor: C. HALEY

The type and frequency of simple sequence repeats (SSRs) inplant genomes was investigated using the expanding quantityof DNA sequence data deposited in public databases. In Arabidopsis,306 genomic DNA sequences longer than 10 kb and 36,199 EST sequenceswere searched for all possible mono- to pentanucleotide repeats.The average frequency of SSRs was one every 6.04 kb in genomicDNA, decreasing to one every 14 kb in ESTs. SSR frequency andtype differed between coding, intronic, and intergenic DNA.Similar frequencies were found in other plant species. On thebasis of these findings, an approach is proposed and demonstratedfor the targeted isolation of single or multiple, physicallyclustered SSRs linked to any gene that has been mapped usinglow-copy DNA-based markers. The approach involves sample sequencinga small number of subclones of selected randomly sheared largeinsert DNA clones (e.g., BACs). It is shown to be both feasibleand practicable, given the probability of fortuitously sequencingthrough an SSR. The approach is demonstrated in barley wheresample sequencing 34 subclones of a single BAC selected by hybridizationto the Big1 gene revealed three SSRs. These allowed Big1 tobe located at the top of barley linkage group 6HS.

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