Agronomy (Sep 2023)

Genome-Wide Association Study for Spike Traits and Distribution of Two QTLs for Grain Number in Chinese Wheat Cultivars

  • Junzhe Wang,
  • Yijin Chen,
  • Xiangjun Lai,
  • Zihui Liu,
  • Manshuang Liu,
  • Shengbao Xu

DOI
https://doi.org/10.3390/agronomy13102538
Journal volume & issue
Vol. 13, no. 10
p. 2538

Abstract

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Spike traits play an important role in improving wheat yield. However, the application of reported spike-related loci remains unclear. Here, we assessed six spike-related traits across seven different environments using 406 wheat accessions. A negative correlation was observed between two components of wheat yield: thousand kernel weight (TKW) and grain number per spike (GN). Nonetheless, TKW and GN were significantly higher in modern cultivars compared to landraces. Two reliable quantitative trait loci (QTLs) related to GN, QGN.nwafu-4A and QGN.nwafu-7A, were identified through genome-wide associate analysis. QGN.nwafu-4A showed pleiotropy on GN, kernel number per spikelet and spike length. Both elite haplotypes of QGN.nwafu-7A were prominently present in Chinese modern cultivars, particularly those released after the year 2000. Elite haplotype A of QGN.nwafu-7A was significantly prevalent in Chinese Yellow and Huai wheat zone, while elite haplotype D of QGN.nwafu-7A was concentrated in other wheat-growing regions of China. This observation suggests distinct preferences in wheat cultivation across various agro-ecological regions. Conversely, elite haplotype A of QGN.nwafu-4A was more common in introduced cultivars from abroad. This divergence may be attributed to the reduced TKW of haplotype A. Overall, these findings provide valuable insights into the application of these two QTLs in high-yield wheat breeding.

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