4.8 Article

cis-Regulatory variation affecting gene expression contributes to the improvement of maize kernel size

Journal

PLANT JOURNAL
Volume 111, Issue 6, Pages 1595-1608

Publisher

WILEY
DOI: 10.1111/tpj.15910

Keywords

cis-regulatory variation; expression quantitative trait locus (eQTL); genome-wide association study (GWAS); kernel size; maize (Zea mays L; )

Categories

Funding

  1. Ministry of Science and Technology of China [2020YFE0202300]
  2. National Natural Science Foundation of China [32101809]
  3. Agricultural Science and Technology Innovation Program of CAAS [Y2020YJ09, ZDRW202109]

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cis-regulatory variations play an important role in the regulation of maize kernel size. This study dissected the genetic architecture of maize kernel size using two independent association populations and transcriptomic and genotypic data. The results showed that cis-regulatory variations control kernel size by fine-tuning the expression of proximal genes, and the accumulation of favorable cis-regulatory variations contributes to the improvement of maize kernel size.
cis-Regulatory variations contribute to trait evolution and adaptation during crop domestication and improvement. As the most important harvested organ in maize (Zea mays L.), kernel size has undergone intensive selection for size. However, the associations between maize kernel size and cis-regulatory variations remain unclear. We chose two independent association populations to dissect the genetic architecture of maize kernel size together with transcriptomic and genotypic data. The resulting phenotypes reflected a strong influence of population structure on kernel size. Compared with genome-wide association studies (GWASs), which accounted for population structure and relatedness, GWAS based on a naive or simple linear model revealed additional associated single-nucleotide polymorphisms significantly involved in the conserved pathways controlling seed size in plants. Regulation analyses through expression quantitative trait locus mapping revealed that cis-regulatory variations likely control kernel size by fine-tuning the expression of proximal genes, among which ZmKL1 (GRMZM2G098305) was transgenically validated. We also proved that the pyramiding of the favorable cis-regulatory variations has contributed to the improvement of maize kernel size. Collectively, our results demonstrate that cis-regulatory variations, together with their regulatory genes, provide excellent targets for future maize improvement.

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