logo
ResearchBunny Logo
Soybean reduced internode 1 determines internode length and improves grain yield at dense planting

Agriculture

Soybean reduced internode 1 determines internode length and improves grain yield at dense planting

S. Li, Z. Sun, et al.

Discover how the *rin1* mutant in soybean, a game-changer for high-density planting, can significantly boost grain yield. This breakthrough research, led by renowned authors including Shichen Li and Zhihui Sun, promises to enhance soybean cultivation alongside traditional staples like rice and wheat.

00:00
00:00
Playback language: English
Abstract
Soybean grain yield at the population level lags behind staple crops like rice, wheat, and maize, which benefit from semi-dwarf phenotypes enabling high-density planting. This study characterized a short-internode soybean mutant, *reduced internode 1* (*rin1*), which is caused by a partial loss-of-function of *SPA3a*. RIN1 interacts with STF1 and STF2, promoting their degradation and regulating gibberellin metabolism via a STF1/STF2-GA20ox7 module, controlling internode development. Field trials showed *rin1* significantly improves grain yield under high-density planting compared to the wild type. Therefore, *rin1* is a valuable resource for improving soybean yield in high-density cultivation and intercropping systems.
Publisher
Nature Communications
Published On
Dec 01, 2023
Authors
Shichen Li, Zhihui Sun, Qing Sang, Chao Qin, Lingping Kong, Xin Huang, Huan Liu, Tong Su, Haiyang Li, Milan He, Chao Fang, Lingshuang Wang, Shuangrong Liu, Bin Liu, Baohui Liu, Xiangdong Fu, Fanjiang Kong, Sijia Lu
Tags
soybean
rin1 mutant
grain yield
high-density planting
gibberellin metabolism
internode development

Related Publications

Explore these studies to deepen your understanding of the subject.

PH13 improves soybean shade traits and enhances yield for high-density planting at high latitudes
Agriculture

PH13 improves soybean shade traits and enhances yield for high-density planting at high latitudes

C. Qin, Y. Li, et al.

Wild rice *GL12* synergistically improves grain length and salt tolerance in cultivated rice
Agriculture

Wild rice *GL12* synergistically improves grain length and salt tolerance in cultivated rice

Y. Wang, W. Chen, et al.

Strip-width determines competitive strengths and grain yields of intercrop species in relay intercropping system
Agriculture

Strip-width determines competitive strengths and grain yields of intercrop species in relay intercropping system

M. A. Raza, L. Cui, et al.

Optimized split nitrogen fertilizer increase photosynthesis, grain yield, nitrogen use efficiency and water use efficiency under water-saving irrigation
Agriculture

Optimized split nitrogen fertilizer increase photosynthesis, grain yield, nitrogen use efficiency and water use efficiency under water-saving irrigation

Z. Zhang, Y. Zhang, et al.

Listen, Learn & Level Up
Over 10,000 hours of research content in 25+ fields, available in 12+ languages.
No more digging through PDFs, just hit play and absorb the world's latest research in your language, on your time.
listen to research audio papers with researchbunny