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Genomic investigation of 18,421 lines reveals the genetic architecture of rice.

Xin WeiMengjiao ChenQi ZhangJunyi GongJie QiuKaicheng YongQin WangJiongjiong FanSu-Hui ChenHua HuaZhaowei LuoXiaoyan ZhaoXuan WangWei LiJia CongXiting YuZhihan WangRuipeng HuangJiaxin ChenXiaoyi ZhouJie QiuPing XuJeremy D MurrayHai WangYang XuChenwu XuGen XuJinliang YangBin HanXue-Hui Huang
Published in: Science (New York, N.Y.) (2024)
Understanding how numerous quantitative trait loci (QTL) shape phenotypic variation is an important question in genetics. To address this, we established a permanent population of 18,421 (18K) rice lines with reduced population structure. We generated reference-level genome assemblies of the founders and genotyped all 18K-rice lines through whole-genome sequencing. Through high-resolution mapping, 96 high-quality candidate genes contributing to variation in 16 traits were identified, including OsMADS22 and OsFTL1 verified as causal genes for panicle number and heading date, respectively. We identified epistatic QTL pairs and constructed a genetic interaction network with 19 genes serving as hubs. Overall, 170 masking epistasis pairs were characterized, serving as an important factor contributing to genetic background effects across diverse varieties. The work provides a basis to guide grain yield and quality improvements in rice.
Keyphrases
  • genome wide
  • high resolution
  • copy number
  • dna methylation
  • high density
  • mass spectrometry
  • quality improvement
  • transcription factor