Frontiers in Plant Science (Dec 2022)

QTL mapping of yield components and kernel traits in wheat cultivars TAM 112 and Duster

  • Zhen Wang,
  • Smit Dhakal,
  • Mustafa Cerit,
  • Shichen Wang,
  • Yahya Rauf,
  • Shuhao Yu,
  • Frank Maulana,
  • Wangqi Huang,
  • Joshua D. Anderson,
  • Xue-Feng Ma,
  • Jackie C. Rudd,
  • Amir M. H. Ibrahim,
  • Qingwu Xue,
  • Dirk B. Hays,
  • Amy Bernardo,
  • Paul St. Amand,
  • Guihua Bai,
  • Jason Baker,
  • Shannon Baker,
  • Shuyu Liu

DOI
https://doi.org/10.3389/fpls.2022.1057701
Journal volume & issue
Vol. 13

Abstract

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In the Southern Great Plains, wheat cultivars have been selected for a combination of outstanding yield and drought tolerance as a long-term breeding goal. To understand the underlying genetic mechanisms, this study aimed to dissect the quantitative trait loci (QTL) associated with yield components and kernel traits in two wheat cultivars `TAM 112' and `Duster' under both irrigated and dryland environments. A set of 182 recombined inbred lines (RIL) derived from the cross of TAM 112/Duster were planted in 13 diverse environments for evaluation of 18 yield and kernel related traits. High-density genetic linkage map was constructed using 5,081 single nucleotide polymorphisms (SNPs) from genotyping-by-sequencing (GBS). QTL mapping analysis detected 134 QTL regions on all 21 wheat chromosomes, including 30 pleiotropic QTL regions and 21 consistent QTL regions, with 10 QTL regions in common. Three major pleiotropic QTL on the short arms of chromosomes 2B (57.5 - 61.6 Mbps), 2D (37.1 - 38.7 Mbps), and 7D (66.0 - 69.2 Mbps) colocalized with genes Ppd-B1, Ppd-D1, and FT-D1, respectively. And four consistent QTL associated with kernel length (KLEN), thousand kernel weight (TKW), plot grain yield (YLD), and kernel spike-1 (KPS) (Qklen.tamu.1A.325, Qtkw.tamu.2B.137, Qyld.tamu.2D.3, and Qkps.tamu.6A.113) explained more than 5% of the phenotypic variation. QTL Qklen.tamu.1A.325 is a novel QTL with consistent effects under all tested environments. Marker haplotype analysis indicated the QTL combinations significantly increased yield and kernel traits. QTL and the linked markers identified in this study will facilitate future marker-assisted selection (MAS) for pyramiding the favorable alleles and QTL map-based cloning.

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