Crop Journal (Apr 2023)
Integrated genomic and transcriptomic analysis reveals genes associated with plant height of foxtail millet
Abstract
Foxtail millet (Setaria italica) is an important C4 model crop; however, due to its high-density planting and high stature, lodging at the filling stage resulted in a serious reduction in yield and quality. Therefore, it is imperative to identify and deploy the genes controlling foxtail millet plant height. In this study, we used a semi-dwarf line 263A and an elite high-stalk breeding variety, Chuang 29 to construct an F2 population to identify dwarf genes. We performed transcriptome analysis (RNA-seq) using internode tissues sampled at three jointing stages of 263A and Chuang 29, as well as bulk segregant analysis (BSA) on their F2 population. A total of 8918 differentially expressed genes (DEGs) were obtained from RNA-seq analysis, and GO analysis showed that DEGs were enriched in functions such as “gibberellin metabolic process” and “oxidoreductase activity”, which have previously been shown to be associated with plant height. A total 593 mutated genes were screened by BSA-seq method. One hundred and seventy-six out of the 593 mutated genes showed differential expression levels between the two parental lines, and seven genes not only showed differential expression in two or three internode tissues but also showed high genomic variation in coding regions, which indicated they play a crucial role in plant height determination. Among them, we found a gibberellin biosynthesis related GA20 oxidase gene (Seita.5G404900), which had a single-base deletion at the third exon, leading to the frameshift mutation at 263A. Cleaved amplified polymorphic sequence assay and association analysis proved the single-base deletion in Seita.5G404900 co-segregated with dwarf phenotype in two independent F2 populations planted in entirely different environments. Taken together, the candidate genes identified in this study will help to elucidate the genetic basis of foxtail millet plant height, and the molecular marker will be useful for marker-assisted dwarf breeding.