A highly robust and optimized sequence-based approach for genetic polymorphism discovery and genotyping in large plant populations

Research output: Contribution to journalArticlepeer-review


  • Ning Jiang
  • Fengjun Zhang
  • Jinhua Wu
  • Yue Chen
  • Xiaohua Hu
  • Ou Fang
  • Di Wang

Colleges, School and Institutes


Advent of the next generation sequencing techniques motivates recent interest in developing sequence-based identification and genotyping of genome-wide genetic variants in large populations, with RAD-seq being a typical example. Without taking proper account for the fact that chloroplast and rRNA genes may occupy up to 60 % of the resulting sequence reads, the current RAD-seq design could be very inefficient for plant and crop species. We presented here a generic computational tool to optimize RAD-seq design in any plant species and experimentally tested the optimized design by implementing it to screen for and genotype sequence variants in four plant populations of diploid and autotetraploid Arabidopsis and potato Solanum tuberosum. Sequence data from the optimized RAD-seq experiments shows that the undesirable chloroplast and rRNA contributed sequence reads can be controlled at 3–10 %. Additionally, the optimized RAD-seq method enables pre-design of the required uniformity and density in coverage of the high quality sequence polymorphic markers over the genome of interest and genotyping of large plant or crop populations at a competitive cost in comparison to other mainstream rivals in the literature.


Original languageEnglish
Pages (from-to)1739–1757
JournalTheoretical and Applied Genetics
Issue number9
Early online date17 Jun 2016
Publication statusPublished - Sep 2016