The Plant Genome (Mar 2018)

Verticillium dahliae Disease Resistance and the Regulatory Pathway for Maturity and Tuberization in Potato

  • Helen H. Tai,
  • David De Koeyer,
  • Mads Sønderkær,
  • Sanne Hedegaard,
  • Martin Lagüe,
  • Claudia Goyer,
  • Lana Nolan,
  • Charlotte Davidson,
  • Kyle Gardner,
  • Jonathan Neilson,
  • Jamuna Risal Paudel,
  • Agnes Murphy,
  • Benoit Bizimungu,
  • Hui Ying Wang,
  • Xingyao Xiong,
  • Dennis Halterman,
  • Kåre Lehmann Nielsen

DOI
https://doi.org/10.3835/plantgenome2017.05.0040
Journal volume & issue
Vol. 11, no. 1

Abstract

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Kleb. is a pathogenic fungus causing wilting, chlorosis, and early dying in potato ( L.). Genetic mapping of resistance to was done using a diploid population of potato. The major quantitative trait locus (QTL) for resistance was found on chromosome 5. The gene, controlling earliness of maturity and tuberization, was mapped within the interval. Another QTL on chromosome 9 co-localized with the wilt resistance gene marker. Epistasis analysis indicated that the loci on chromosomes 5 and 9 had a highly significant interaction, and that functioned downstream of The alleles were sequenced and found to encode StCDF1.1 and StCDF1.3. Interaction between the resistance allele and the was demonstrated, but not for Genome-wide expression QTL (eQTL) analysis was performed and genes with eQTL at the and loci were both found to have similar functions involving the chloroplast, including photosynthesis, which declines in both maturity and wilt. Among the gene ontology (GO) terms that were specific to genes with eQTL at the , but not the locus, were those associated with fungal defense. These results suggest that controls fungal defense and reduces early dying in wilt through affecting genetic pathway controlling tuberization timing.