Frontiers in Plant Science (Jun 2018)

Identification of Quantitative Trait Loci for Clubroot Resistance in Brassica oleracea With the Use of Brassica SNP Microarray

  • Lisha Peng,
  • Lisha Peng,
  • Lisha Peng,
  • Lisha Peng,
  • Lili Zhou,
  • Lili Zhou,
  • Lili Zhou,
  • Qinfei Li,
  • Qinfei Li,
  • Qinfei Li,
  • Dayong Wei,
  • Dayong Wei,
  • Dayong Wei,
  • Xuesong Ren,
  • Xuesong Ren,
  • Xuesong Ren,
  • Hongyuan Song,
  • Hongyuan Song,
  • Hongyuan Song,
  • Jiaqin Mei,
  • Jiaqin Mei,
  • Jun Si,
  • Jun Si,
  • Jun Si,
  • Wei Qian,
  • Wei Qian

DOI
https://doi.org/10.3389/fpls.2018.00822
Journal volume & issue
Vol. 9

Abstract

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Increasing clubroot resistance (CR) of Brassica oleracea by ascertaining the molecular mechanisms has been the key focus in modern B. oleracea breeding. In order to identify the quantitative trait loci (QTLs) associated with CR in B. oleracea, 94 F2 vegetative lines which were developed by tissue culture of selfed seeds from the F1 generation between a clubroot-resistant B. oleracea inbred line and a susceptible line, were identified for disease incidence and six CR-associated traits under a lab inoculation by Plasmodiophora brassicae and were genotyped with the 60K Brassica SNP array. Significant correlations were detected for numbers of fibrous roots and P. brassicae content in roots with disease incidence. Nine linkage groups were constructed from 565 bins which covered around 3,000 SNPs, spanning 1,028 cM of the B. oleracea genome with an average distance of 1.82 cM between adjacent bins. A total of 23 QTLs were identified for disease incidence and the other two correlated traits, individually explaining 6.1–17.8% of the phenotypic variation. Several overlaps were detected among traits, including one three-traits-overlapped locus on linkage group C08 and two important overlapped regions between the two CR-associated traits on C06. The QTLs were compared with known CR loci/genes and the novelty of our QTLs was discussed.

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