Fu Li
Jishou University
16 Papers
11 Citations
Fu Li is an academic researcher from Jishou University. The author has contributed to research in topics: Ramie & Biology. The author has an hindex of 3, co-authored 12 publications.
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Papers
A Chromosome-Level Genome Assembly of Garlic (Allium sativum) Provides Insights into Genome Evolution and Allicin Biosynthesis
Sun Xiudong,Siyuan Zhu,Ningyang Li,Yi Cheng,Jing Zhao,Xuguang Qiao,Li Lu,Liu Shiqi,Yanzhou Wang,Liu Chan,Benping Li,Wu Guo,Shuang Gao,Zemao Yang,Fu Li,Zheng Zeng,Qing Tang,Yupeng Pan,Mengjiao Guan,Jian Zhao,Lu Xiaoming,Huanwen Meng,Zhenlin Han,Chunsheng Gao,Wenkai Jiang,Xing Zhao,Shilin Tian,Su Jianguang,Zhihui Cheng,Touming Liu +29 more
TL;DR: A chromosome-level genome assembly for garlic is reported, placing garlic as the first species with a sequenced genome in the genus Allium to date and explaining the substantial expansion of the garlic genome and considerable evolution of certain genes associated with the biosynthesis of allicin and inulin neoseries-type fructans.
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Ubiquitylome analysis reveals the involvement of ubiquitination in the bast fiber growth of ramie.
TL;DR: In this article, the authors compared the ubiquitylome of the top and middle stems of Ramie bark, with different fiber growth stages and found that the abundance of these proteins decreased when their ubiquitination levels increased and vice versa in the fiber-developing bark.
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Resequencing of 301 ramie accessions identifies genetic loci and breeding selection for fibre yield traits
Zheng Zeng,Siyuan Zhu,Yanzhou Wang,Xuehua Bai,Liu Chan,Jianrong Chen,Ting Zhang,Yiping Wei,Fu Li,Zhigui Bao,Yan Li,Hengyun Wang,Touming Liu +12 more
TL;DR: In this paper, a comprehensive map of genomic variation in ramie based on resequencing of 301 landraces and cultivars was produced, which provided insights into the genetic architecture and breeding history of fibre yield traits in Ramie.
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Linkage mapping of quantitative trait loci for fiber yield and its related traits in the population derived from cultivated ramie and wild B. nivea var. tenacissima.
TL;DR: The identification of many QTLs and the discovery of beneficial alleles from wild species provided a basis for the improvement of yield traits in ramie breeding.
Identification of proteins associated with bast fiber growth of ramie by differential proteomic analysis.
TL;DR: Wang et al. as mentioned in this paper performed a proteomic analysis of the bark from the top and middle parts of the stem, where fiber growth is at different stages, and identified 6971 non-redundant proteins from bast bark.
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