生物
基因组
苎麻
荨麻科
康蒂格
遗传学
顺序装配
基因
全基因组测序
植物
转录组
基因表达
有机化学
化学
纤维
作者
Mingbao Luan,Jianbo Jian,Ping Chen,Junhui Chen,Jianhua Chen,Qiang Gao,Gang Gao,Jing Zhou,Kunmei Chen,Xuanmin Guang,Ji‐Kang Chen,Qianqian Zhang,Xiaofei Wang,Long Fang,Zimin Sun,Mingzhou Bai,Xiaodong Fang,Shancen Zhao,Huiming Xiong,Chang Yeon Yu,Aiguo Zhu
标识
DOI:10.1111/1755-0998.12766
摘要
Abstract Ramie, Boehmeria nivea (L.) Gaudich, family Urticaceae, is a plant native to eastern Asia, and one of the world's oldest fibre crops. It is also used as animal feed and for the phytoremediation of heavy metal‐contaminated farmlands. Thus, the genome sequence of ramie was determined to explore the molecular basis of its fibre quality, protein content and phytoremediation. For further understanding ramie genome, different paired‐end and mate‐pair libraries were combined to generate 134.31 Gb of raw DNA sequences using the Illumina whole‐genome shotgun sequencing approach. The highly heterozygous B. nivea genome was assembled using the Platanus Genome Assembler, which is an effective tool for the assembly of highly heterozygous genome sequences. The final length of the draft genome of this species was approximately 341.9 Mb (contig N50 = 22.62 kb, scaffold N50 = 1,126.36 kb). Based on ramie genome annotations, 30,237 protein‐coding genes were predicted, and the repetitive element content was 46.3%. The completeness of the final assembly was evaluated by benchmarking universal single‐copy orthologous genes ( BUSCO ); 90.5% of the 1,440 expected embryophytic genes were identified as complete, and 4.9% were identified as fragmented. Phylogenetic analysis based on single‐copy gene families and one‐to‐one orthologous genes placed ramie with mulberry and cannabis, within the clade of urticalean rosids. Genome information of ramie will be a valuable resource for the conservation of endangered Boehmeria species and for future studies on the biogeography and characteristic evolution of members of Urticaceae.
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