Frontiers in Plant Science (Aug 2024)

Dynamic patterns of gene expressional and regulatory variations in cotton heterosis

  • Chujun Huang,
  • Yu Cheng,
  • Yan Hu,
  • Yan Hu,
  • Lei Fang,
  • Lei Fang,
  • Zhanfeng Si,
  • Jinwen Chen,
  • Yiwen Cao,
  • Yiwen Cao,
  • Xueying Guan,
  • Xueying Guan,
  • Tianzhen Zhang,
  • Tianzhen Zhang

DOI
https://doi.org/10.3389/fpls.2024.1450963
Journal volume & issue
Vol. 15

Abstract

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PurposeAlthough the application of heterosis has significantly increased crop yield over the past century, the mechanisms underlying this phenomenon still remain obscure. Here, we applied transcriptome sequencing to unravel the impacts of parental expression differences and transcriptomic reprogramming in cotton heterosis.MethodsA high-quality transcriptomic atlas covering 15 developmental stages and tissues was constructed for XZM2, an elite hybrid of upland cotton (Gossypium hirsutum L.), and its parental lines, CRI12 and J8891. This atlas allowed us to identify gene expression differences between the parents and to characterize the transcriptomic reprogramming that occurs in the hybrid.ResultsOur analysis revealed abundant gene expression differences between the parents, with pronounced tissue specificity; a total of 1,112 genes exhibited single-parent expression in at least one tissue. It also illuminated transcriptomic reprogramming in the hybrid XZM2, which included both additive and non-additive expression patterns. Coexpression networks between parents and hybrid constructed via weighted gene coexpression network analysis identified modules closely associated with fiber development. In particular, key regulatory hub genes involved in fiber development showed high-parent dominant or over dominant patterns in the hybrid, potentially driving the emergence of heterosis. Finally, high-depth resequencing data was generated and allele-specific expression patterns examined in the hybrid, enabling the dissection of cis- and trans-regulation contributions to the observed expression differences.ConclusionParental transcriptional differences and transcriptomic reprogramming in the hybrid, especially the non-additive upregulation of key genes, play an important role in shaping heterosis. Collectively, these findings provide new insights into the molecular basis of heterosis in cotton.

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