BMC Plant Biology (Aug 2011)

Sol<it>R</it>gene: an online database to explore disease resistance genes in tuber-bearing <it>Solanum </it>species

  • Vleeshouwers Vivianne GAA,
  • Finkers Richard,
  • Budding Dirk,
  • Visser Marcel,
  • Jacobs Mirjam MJ,
  • van Berloo Ralph,
  • Pel Mathieu,
  • Champouret Nicolas,
  • Bakker Erin,
  • Krenek Pavel,
  • Rietman Hendrik,
  • Huigen DirkJan,
  • Hoekstra Roel,
  • Goverse Aska,
  • Vosman Ben,
  • Jacobsen Evert,
  • Visser Richard GF

DOI
https://doi.org/10.1186/1471-2229-11-116
Journal volume & issue
Vol. 11, no. 1
p. 116

Abstract

Read online

Abstract Background The cultivated potato (Solanum tuberosum L.) is an important food crop, but highly susceptible to many pathogens. The major threat to potato production is the Irish famine pathogen Phytophthora infestans, which causes the devastating late blight disease. Potato breeding makes use of germplasm from wild relatives (wild germplasm) to introduce resistances into cultivated potato. The Solanum section Petota comprises tuber-bearing species that are potential donors of new disease resistance genes. The aim of this study was to explore Solanum section Petota for resistance genes and generate a widely accessible resource that is useful for studying and implementing disease resistance in potato. Description The SolRgene database contains data on resistance to P. infestans and presence of R genes and R gene homologues in Solanum section Petota. We have explored Solanum section Petota for resistance to late blight in high throughput disease tests under various laboratory conditions and in field trials. From resistant wild germplasm, segregating populations were generated and assessed for the presence of resistance genes. All these data have been entered into the SolRgene database. To facilitate genetic and resistance gene evolution studies, phylogenetic data of the entire SolRgene collection are included, as well as a tool for generating phylogenetic trees of selected groups of germplasm. Data from resistance gene allele-mining studies are incorporated, which enables detection of R gene homologs in related germplasm. Using these resources, various resistance genes have been detected and some of these have been cloned, whereas others are in the cloning pipeline. All this information is stored in the online SolRgene database, which allows users to query resistance data, sequences, passport data of the accessions, and phylogenic classifications. Conclusion Solanum section Petota forms the basis of the SolRgene database, which contains a collection of resistance data of an unprecedented size and precision. Complemented with R gene sequence data and phylogenetic tools, SolRgene can be considered the primary resource for information on R genes from potato and wild tuber-bearing relatives.