Kun Li#, Yongtao Yu#, Shijuan Yan#, Wenqiang Li#, Jieting Xu, Gaoke Li, Wu Li, Jianhua Liu, Xitao Qi, Wenjie Huang, Qunjie Zhang, Qian Kong, Yingni Xiao, Nan Zhang, Jingyun Luo, Lu Chen, Liying Feng, Wenguang Zhu, Tianxiang Wen, Lihua Xie, Yuliang Li, Wenjia Lu, Chunyan Li, Songtao Gui, Yingjie Xiao, Ning Yang, Lin Zhuo, Alisdair R. Fernie, Hai-Jun Liu*, Jianguang Hu*,Jianbing Yan*
Nature Genetics volume 57, pages2842–2851 (2025), Published: 07 November 2025
Abstract
Sweet corn is an important vegetable crop consumed globally. However, the genetic differentiation between field corn and sweet corn, and the impact of breeding on the metabolite composition and flavor (other than sweetness) of sweet corn, remain poorly understood. Here we assembled a cultivated sweet-corn genome de novo and re-sequenced 295 diverse sweet-corn inbred lines. We examined the genetic architecture of sweet-corn kernel quality by combining genetic, metabolite and expression profiling methodologies. New genes (for example, ZmAPS1, ZmSK1 and ZmCRR5) and metabolites associated with flavor and consumer preference were identified, highlighting important target flavor metabolites, including sugars, acids and volatiles. These findings provide valuable knowledge and targets for future genetic breeding of sweet-corn flavor, and to balance grain yield and quality and contribute to our broader understanding of crop diversification.
原文链接:https://www.nature.com/articles/s41588-025-02401-0
