Frontiers in Plant Science (Jul 2018)

Genome-Wide Association Study Reveals Both Overlapping and Independent Genetic Loci to Control Seed Weight and Silique Length in Brassica napus

  • Hongli Dong,
  • Chuandong Tan,
  • Yuzhen Li,
  • Yan He,
  • Shuai Wei,
  • Yixin Cui,
  • Yangui Chen,
  • Dayong Wei,
  • Ying Fu,
  • Yajun He,
  • Huafang Wan,
  • Zhi Liu,
  • Qing Xiong,
  • Kun Lu,
  • Kun Lu,
  • Jiana Li,
  • Jiana Li,
  • Wei Qian,
  • Wei Qian

DOI
https://doi.org/10.3389/fpls.2018.00921
Journal volume & issue
Vol. 9

Abstract

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Seed weight (SW) is one of three determinants of seed yield, which positively correlates with silique length (SL) in Brassica napus (rapeseed). However, the genetic mechanism underlying the relationship between seed weight (SW) and silique length (SL) is largely unknown at present. A natural population comprising 157 inbred lines in rapeseed was genotyped by whole-genome re-sequencing and investigated for SW and SL over four years. The genome-wide association study identified 20 SNPs in significant association with SW on A01, A04, A09, C02, and C06 chromosomes and the phenotypic variation explained by a single locus ranged from 11.85% to 34.58% with an average of 25.43%. Meanwhile, 742 SNPs significantly associated with SL on A02, A03, A04, A07, A08, A09, C01, C03, C04, C06, C07, and C08 chromosomes were also detected and the phenotypic variation explained by a single locus ranged from 4.01 to 48.02% with an average of 33.33%, out of which, more than half of the loci had not been reported in the previous studies. There were 320 overlapping or linked SNPs for both SW and SL on A04, A09, and C06 chromosomes. It indicated that both overlapping and independent genetic loci controlled both SW and SL in B. napus. On the haplotype block on A09 chromosome, the allele variants of a known gene BnaA.ARF18.a controlling both SW and SL were identified in the natural population by developing derived cleaved amplified polymorphic sequence (dCAPS) markers. These findings are valuable for understanding the genetic mechanism of SW and SL and also for rapeseed molecular breeding programs.

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