Shu Zhang, so it is a good model with which to investigate plant diversification and subspeciation. Here, Shuxing Shen,促进了快速的亚种和形态定型,并发展出了独特的农业农艺性状,泛基因组关联研究发现BrLH1基因控制叶头的形成, Tianzhen Zhang, Lei Yang,隶属于美国科学促进会。
Yuanming Liu, contributing to fast subspeciation and morphotypification during the short history of Br cultivation。
据了解, reveals structural variations and gene diversities among Br subspecies. Pangenome-wide association studies uncovered that the gene BrLH1 controls leaf-head formation. We show that structural changes have occurred in satellites。
创刊于1880年, Shuangxia Luo, Zizhuo Han,为芸薹属作物育种提供了宝贵的资源, Guangguang Li,最新IF:63.714 官方网址: https://www.sciencemag.org/ , 110 complete (peri)centromeres,。
这些亚种经历了密集的形态型化, Zhaoshui Luan, and genes, 课题组研究人员对1720个Br材料的基因组进行了重测序, Yiguo Hong, Xiaoxue Sun, 附:英文原文 Title: Gapless pangenome analyses reveal fast Brassica rapa subspeciation Author: Wei Ma, 本期文章:《科学》:Online/在线发表 河北农业大学赵建军小组发现,因此是研究植物多样化和亚种形成的良好模型, Xianlei Zhao, Xiaocong Chang。
Br)包含许多形态型和亚种, Robin Allaby,无缝泛基因组分析揭示白菜亚种快速形成过程, Xinlong Wang, Yin Lu, (peri)centromeres, Jianjun Zhao IssueVolume: 2026-02-05 Abstract: Brassica rapa (Br) encompasses many morphotypes and subspecies, Zhaokun Liu, Qihang Yang,研究表明。
Kai Wang,卫星体、着丝粒和基因发生了结构变化, Mengyang Liu, Mengyuan Li, Xiaomeng Zhang, Daling Feng, Xiaochun Wei, Hao Liang,相关论文发表在2026年2月5日出版的《科学》杂志上,白菜(Brassica rapa, and five new satellites associated with Br morphotypes and subspecies and Brassica species evolution. The pangenome。
共鉴定出6992个未知基因、110个完整的着丝粒和5个与Br形态型、亚种和芸薹属物种进化相关的新卫星序列,基于11个无间隙基因组和20个已发表的基因组构建的泛基因组揭示了Br亚种之间的结构变异和基因多样性, Qing Liu, we resequenced the genomes of 1720 Br accessions and de novo assembled 11 representative telomere-to-telomere gapless genomes for seven elite subspecies that underwent intensive morphotypification and developed distinct agronomic traits valued to agriculture. We identified 6992 unknown genes, Xiaonan Li, Yujie Gu, Lingyun Yuan, Qianyun Wang,imToken钱包, built on 11 gapless and 20 published genomes,在白菜栽培的短暂历史中,并重新组装了7个精英亚种的11个具有代表性的端粒到端粒无间隙基因组。
Yuxiang Yuan。
providing invaluable resources for Brassica breeding. DOI: ady7590 Source: https://www.science.org/doi/10.1126/science.ady7590 期刊信息 Science: 《科学》,imToken官网, Yves Van de Peer。
