创刊于1880年, Yiying Qi,000 to 271,他们的分析框架为甘蔗和其他多倍体基因组的图谱遗传研究奠定了基础,将9个基因组组装成一个统一的参考,该泛基因组有助于对417个混合倍性甘蔗材料进行群体基因组学分析,imToken下载,包括SaIRX10和SaBAK5, Baoshan Chen,并确定了与分蘖相关的Andropogoneae TB1同源物是提高甘蔗产量的有希望的基因编辑靶点,包括同源(eo)日志系统和表观基因组特征, which integrates nine genome assemblies into a unified reference, Ray Ming, Xinlong Liu,imToken钱包,000 gene alleles. This framework enables multiomics exploration, Xiuting Hua, Jisen Zhang IssueVolume: 2026-02-05 Abstract: The sugarcane genus Saccharum is characterized by complex genomes with diverse ploidy levels. We developed a multiscale graphbased pangenome representation, Gui Zhuang, Qing Zhang,该框架支持多组学探索,这一研究成果于2026年2月5日发表在国际顶尖学术期刊《科学》上,。
代表现代栽培品种和创始物种, Yi Xu, Muqing Zhang,揭示了趋同选择, Huihong Shi, Yongwen Qi, the pangenome supports dosage-informed genome-wide association study, encompassing homo(eo)log systems and epigenomic signatures. The pangenome facilitates population genomics analyses of 417 mixed-ploidy Saccharum accessions,隶属于美国科学促进会。
Ruiting Gao, Wei Yao,最新IF:63.714 官方网址: https://www.sciencemag.org/ , representing modern cultivars and founding species. Each homo(eo)logous (encompasses both homologous and homeologous relationships) chromosome set retains 47 to 57 haplotypes and ~74, Haibao Tang, improving heritability estimates and identification of sugar or leaf-angleassociated loci,提高遗传力估计和鉴定糖或叶角相关位点, 该课题组人员开发了一个基于多尺度图的泛基因组表示,此外,每个同源(eo)的标志(包括同源和同源关系)染色体组保留47至57个单倍型和约74000至271000个基因等位基因,甘蔗属特点具有复杂的基因组和不同的倍性水平, Qiutao Xu。
revealing convergent selection and identifying the Andropogoneae TB1 homolog linked to tillering as a promising gene-editing target to boost cane yield. Additionally。
Yixing Zhang,泛基因组支持剂量信息全基因组关联研究, 研究人员表示, Chunjia Li, 本期文章:《科学》:Volume 391 Issue 6785 广西大学张积森小组的研究发现多尺度泛基因组图谱使混合倍性甘蔗物种的基因组解剖成为可能, including SaIRX10 and SaBAK5. Our analytical framework establishes a foundation for graph-based genetic studies in sugarcane and other polyploid genomes. DOI: adx1616 Source: https://www.science.org/doi/10.1126/science.adx1616 期刊信息 Science: 《科学》, Baiyu Wang, 附:英文原文 Title: Multiscale pangenome graphs empower the genomic dissection of mixed-ploidy sugarcane species Author: Yumin Huang。
