The phenomenon of multiple-grain spikelets is frequently observed in gramineous crops. In the case of dual-floret spikelets, the upper fertile floret develops normally to form a single grain, while the lower sterile floret undergoes abortion. Here we elucidate the role of Double-Grain 1 (DG1), a gene encoding a homeobox-domain-containing protein, in regulating the lower floret meristem activity and double-grain spikelet trait in sorghum. A 35.7-kb paracentric inversion in the DG1 promoter region leads to increased DG1 expression, probably by reducing repressive histone modifications. This increase in DG1 expression transforms the degenerated lower floret into a fertile one. The use of the superior DG1 allele results in an increase of approximately 40.7% to 46.1% in grain number per panicle and a 10.1% to 14.3% increase in overall grain yield. Our findings shed light on the sorghum double-grain spikelet characteristic, offering valuable insights for high-yield breeding designs in cereals.

Fundamental Research Fund for the Central Universities 77000-12240011

Moutai Group Research and Development Project 2023011

National High-Level Personnel of Special Support Program 2024WRQB003

National Key Research and Development Program of China 2022YFD1500503

National Key Research and Development Program of China 2023YFD1200700

National Key Research and Development Program of China 2023YFD1200704

National Natural Science Foundation of China 32241038

National Natural Science Foundation of China 32241042

National Natural Science Foundation of China 32241045

National Natural Science Foundation of China 32472124

National Science Foundation for Young Scientists of China 32201780

ShenZhen Postdoctoral Funding Project 77000*42100029

Shenzhen Science and Technology Program JCYJ20240813151204006

Strategic Priority Research Program of the Chinese Academy of Sciences XDA0440302