PLoS ONE (Jan 2007)

Complexity reduction of polymorphic sequences (CRoPS): a novel approach for large-scale polymorphism discovery in complex genomes.

  • Nathalie J van Orsouw,
  • René C J Hogers,
  • Antoine Janssen,
  • Feyruz Yalcin,
  • Sandor Snoeijers,
  • Esther Verstege,
  • Harrie Schneiders,
  • Hein van der Poel,
  • Jan van Oeveren,
  • Harold Verstegen,
  • Michiel J T van Eijk

DOI
https://doi.org/10.1371/journal.pone.0001172
Journal volume & issue
Vol. 2, no. 11
p. e1172

Abstract

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Application of single nucleotide polymorphisms (SNPs) is revolutionizing human bio-medical research. However, discovery of polymorphisms in low polymorphic species is still a challenging and costly endeavor, despite widespread availability of Sanger sequencing technology. We present CRoPS as a novel approach for polymorphism discovery by combining the power of reproducible genome complexity reduction of AFLP with Genome Sequencer (GS) 20/GS FLX next-generation sequencing technology. With CRoPS, hundreds-of-thousands of sequence reads derived from complexity-reduced genome sequences of two or more samples are processed and mined for SNPs using a fully-automated bioinformatics pipeline. We show that over 75% of putative maize SNPs discovered using CRoPS are successfully converted to SNPWave assays, confirming them to be true SNPs derived from unique (single-copy) genome sequences. By using CRoPS, polymorphism discovery will become affordable in organisms with high levels of repetitive DNA in the genome and/or low levels of polymorphism in the (breeding) germplasm without the need for prior sequence information.