Song Xianwei, Tang Shanjie, Liu Hui, Meng Ying, Luo Haofei, Wang Bao, Hou Xiu-Li, Yan Bin, Yang Chao, Guo Zhenhua, Wang Lizhi, Jiang Shukun, Deng Xian, Cao Xiaofeng
Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; State Key Laboratory of Seed Innovation, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China.
Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; College of Life Sciences, University of the Chinese Academy of Sciences, Beijing 100039, China.
Cell. 2025 Aug 7;188(16):4213-4224.e12. doi: 10.1016/j.cell.2025.04.036. Epub 2025 May 22.
Epigenetic pathways could provide a mechanistic explanation for the inheritance of acquired characteristics, as proposed by Lamarck in 1802, but epigenetic alterations that endow adaptive hereditary traits have rarely been observed. Here, in cultivated Asian rice (Oryzasativa L.), we identified an epiallele conferring acquired and heritable cold tolerance, an adaptive trait enabling northward spread from its tropical origins. We subjected cold-sensitive rice to multigenerational cold stress and identified a line with acquired stable inheritance of cold tolerance. DNA-hypomethylation variation in the acquiredcoldtolerance 1 (ACT1) promoter region rendered its expression insensitive to cold. This change is, in large part, responsible for the acquired cold tolerance, as confirmed by DNA-methylation editing. Natural variation in ACT1 DNA hypomethylation is associated with cold tolerance and rice geographic distribution. Hypomethylation at ACT1 triggers adaptive cold tolerance, presenting a route to epigenetic-variation-driven inheritance of acquired characteristics.
表观遗传途径可以为获得性特征的遗传提供一种机制解释,这是拉马克在1802年提出的,但赋予适应性遗传性状的表观遗传改变很少被观察到。在这里,在栽培的亚洲水稻(Oryza sativa L.)中,我们鉴定出一个赋予获得性和遗传性耐寒性的表观等位基因,这是一种适应性性状,使其能够从热带起源向北传播。我们对冷敏感水稻进行了多代冷胁迫处理,并鉴定出一个具有获得性耐寒性稳定遗传的品系。获得性耐寒性1(ACT1)启动子区域的DNA低甲基化变异使其表达对寒冷不敏感。如DNA甲基化编辑所证实的,这种变化在很大程度上导致了获得性耐寒性。ACT1 DNA低甲基化的自然变异与耐寒性和水稻地理分布有关。ACT1处的低甲基化触发适应性耐寒性,为表观遗传变异驱动的获得性特征遗传提供了一条途径。
