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Yinqi Bai
Researcher at Beijing Institute of Genomics
Publications - 11
Citations - 4537
Yinqi Bai is an academic researcher from Beijing Institute of Genomics. The author has contributed to research in topics: Biology & Genome. The author has an hindex of 5, co-authored 6 publications receiving 4061 citations.
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Journal ArticleDOI
The genome of the mesopolyploid crop species Brassica rapa
Xiaowu Wang,Hanzhong Wang,Jun Wang,Jun Wang,Jun Wang,Rifei Sun,Jian Wu,Shengyi Liu,Yinqi Bai,Jeong-Hwan Mun,Ian Bancroft,Feng Cheng,Sanwen Huang,Xixiang Li,Wei Hua,Junyi Wang,Xiyin Wang,Xiyin Wang,Michael Freeling,J. Chris Pires,Andrew H. Paterson,Boulos Chalhoub,Bo Wang,Alice Hayward,Alice Hayward,Andrew G. Sharpe,Beom-Seok Park,Bernd Weisshaar,Binghang Liu,Bo Li,Bo Liu,Chaobo Tong,Chi Song,Chris Duran,Chris Duran,Chunfang Peng,Geng Chunyu,Chushin Koh,Chuyu Lin,David Edwards,David Edwards,Desheng Mu,Di Shen,Eleni Soumpourou,Fei Li,Fiona Fraser,Gavin C. Conant,Gilles Lassalle,Graham J.W. King,Guusje Bonnema,Haibao Tang,Haiping Wang,Harry Belcram,Heling Zhou,Hideki Hirakawa,Hiroshi Abe,Hui Guo,Hui Wang,Huizhe Jin,Isobel A. P. Parkin,Jacqueline Batley,Jacqueline Batley,Jeong-Sun Kim,Jérémy Just,Jianwen Li,Jiaohui Xu,Jie Deng,Jin A Kim,Jingping Li,Jingyin Yu,Jinling Meng,Jinpeng Wang,Jiumeng Min,Julie Poulain,Katsunori Hatakeyama,Kui Wu,Li Wang,Lu Fang,Martin Trick,Matthew G. Links,Meixia Zhao,Mina Jin,Nirala Ramchiary,Nizar Drou,Paul J. Berkman,Paul J. Berkman,Qingle Cai,Quanfei Huang,Ruiqiang Li,Satoshi Tabata,Shifeng Cheng,Shu Zhang,Shujiang Zhang,Shunmou Huang,Shusei Sato,Silong Sun,Soo-Jin Kwon,Su-Ryun Choi,Tae-Ho Lee,Wei Fan,Xiang Zhao,Xu Tan,Xun Xu,Yan Wang,Yang Qiu,Ye Yin,Yingrui Li,Yongchen Du,Yongcui Liao,Yong Pyo Lim,Yoshihiro Narusaka,Yupeng Wang,Zhenyi Wang,Zhenyu Li,Zhiwen Wang,Zhiyong Xiong,Zhonghua Zhang +116 more
TL;DR: The annotation and analysis of the draft genome sequence of Brassica rapa accession Chiifu-401-42, a Chinese cabbage, and used Arabidopsis thaliana as an outgroup for investigating the consequences of genome triplication, such as structural and functional evolution.
Journal ArticleDOI
The genome of the cucumber, Cucumis sativus L.
Sanwen Huang,Ruiqiang Li,Zhonghua Zhang,Li Li,Xingfang Gu,Wei Fan,William J. Lucas,Xiaowu Wang,Bingyan Xie,Peixiang Ni,Yuanyuan Ren,Hongmei Zhu,Jun Li,Kui Lin,Weiwei Jin,Zhangjun Fei,Guangcun Li,Jack E. Staub,Andrzej Kilian,Edwin A. G. van der Vossen,Yang Wu,Jie Guo,Jun He,Zhiqi Jia,Yi Ren,Geng Tian,Yao Lu,Jue Ruan,Wubin Qian,Mingwei Wang,Quanfei Huang,Bo Li,Zhaoling Xuan,Jianjun Cao,Asan,Zhigang Wu,Juanbin Zhang,Qingle Cai,Yinqi Bai,Bowen Zhao,Yonghua Han,Ying Li,Xuefeng Li,Shenhao Wang,Qiuxiang Shi,Shiqiang Liu,Won Kyong Cho,Jae-Yean Kim,Yong Xu,Katarzyna Heller-Uszynska,Han Miao,Zhouchao Cheng,Shengping Zhang,Jian Wu,Yuhong Yang,Houxiang Kang,Man Li,Huiqing Liang,Xiaoli Ren,Zhongbin Shi,Ming Wen,Min Jian,Hailong Yang,Guojie Zhang,Zhentao Yang,Rui Chen,Shifang Liu,Jianwen Li,Lijia Ma,Hui Liu,Yan Zhou,Jing Zhao,Xiaodong Fang,Guoqing Li,Lin Fang,Yingrui Li,Dongyuan Liu,Hongkun Zheng,Yong Zhang,Nan Qin,Zhuo Li,Guohua Yang,Shuang Yang,Lars Bolund,Karsten Kristiansen,Hancheng Zheng,Shaochuan Li,Xiuqing Zhang,Huanming Yang,Jing Wang,Rifei Sun,Zhang Baoxi,Shuzhi Jiang,Jun Wang,Yongchen Du,Songgang Li +95 more
TL;DR: This study establishes that five of the cucumber's seven chromosomes arose from fusions of ten ancestral chromosomes after divergence from Cucumis melo, and identifies 686 gene clusters related to phloem function.
Journal ArticleDOI
The sequence and de novo assembly of the giant panda genome
Ruiqiang Li,Wei Fan,Geng Tian,Hongmei Zhu,Lin He,Lin He,Jing Cai,Jing Cai,Quanfei Huang,Qingle Cai,Bo Li,Yinqi Bai,Zhihe Zhang,Ya-Ping Zhang,Wen Wang,Jun Li,Fuwen Wei,Heng Li,Min Jian,Jianwen Li,Zhaolei Zhang,Rasmus Nielsen,Dawei Li,Wanjun Gu,Zhentao Yang,Zhaoling Xuan,Oliver A. Ryder,Frederick C. Leung,Yan Zhou,Jianjun Cao,Xiao Sun,Yonggui Fu,Xiaodong Fang,Xiaosen Guo,Bo Wang,Rong Hou,Fujun Shen,Bo Mu,Peixiang Ni,Runmao Lin,Wubin Qian,Guo-Dong Wang,Guo-Dong Wang,Chang Yu,Wenhui Nie,Jinhuan Wang,Zhigang Wu,Huiqing Liang,Jiumeng Min,Qi Wu,Shifeng Cheng,Jue Ruan,Mingwei Wang,Zhongbin Shi,Ming Wen,Binghang Liu,Xiaoli Ren,Huisong Zheng,Dong Dong,Kathleen Cook,Gao Shan,Hao Zhang,Carolin Kosiol,Xueying Xie,Zuhong Lu,Hancheng Zheng,Yingrui Li,Cynthia C. Steiner,Tommy Tsan-Yuk Lam,Siyuan Lin,Qinghui Zhang,Guoqing Li,Jing Tian,Timing Gong,Hongde Liu,Dejin Zhang,Lin Fang,Chen Ye,Juanbin Zhang,Wenbo Hu,Anlong Xu,Yuanyuan Ren,Guojie Zhang,Guojie Zhang,Michael William Bruford,Qibin Li,Lijia Ma,Yiran Guo,Na An,Yujie Hu,Yang Zheng,Yongyong Shi,Zhiqiang Li,Qing Liu,Yanling Chen,Jing Zhao,Ning Qu,Shancen Zhao,Feng Tian,Xiaoling Wang,Haiyin Wang,Lizhi Xu,Xiao Liu,Tomas Vinar,Yajun Wang,Tak-Wah Lam,Siu-Ming Yiu,Shiping Liu,Hemin Zhang,Desheng Li,Yan Huang,Xia Wang,Guohua Yang,Zhi Jiang,Junyi Wang,Nan Qin,Li Li,Jingxiang Li,Lars Bolund,Karsten Kristiansen,Gane Ka-Shu Wong,Maynard V. Olson,Xiuqing Zhang,Songgang Li,Huanming Yang,Jing Wang,Jun Wang +126 more
TL;DR: Using next-generation sequencing technology alone, a draft sequence of the giant panda genome is generated and assembled, indicating that its bamboo diet might be more dependent on its gut microbiome than its own genetic composition.
Journal ArticleDOI
Genome sequencing and comparison of two nonhuman primate animal models, the cynomolgus and Chinese rhesus macaques
Guangmei Yan,Guojie Zhang,Xiaodong Fang,Yanfeng Zhang,Cai Li,Fei Ling,David Neil Cooper,Qiye Li,Yan Li,Alain J. van Gool,Hongli Du,Jiesi Chen,Ronghua Chen,Pei Zhang,Zhiyong Huang,John R. Thompson,Yuhuan Meng,Yinqi Bai,Jufang Wang,Min Zhuo,Tao Wang,Ying Huang,Liqiong Wei,Jianwen Li,Zhiwen Wang,Haofu Hu,Pengcheng Yang,Liang Le,Peter D. Stenson,Bo Li,Xiaoming Liu,Edward V. Ball,Na An,Quanfei Huang,Yong Zhang,Wei Fan,Xiuqing Zhang,Yingrui Li,Wen Wang,Michael G. Katze,Bing Su,Rasmus Nielsen,Huanming Yang,Jun Wang,Xiaoning Wang,Jing Wang +45 more
TL;DR: High-quality draft genome sequences from two macaque species, the cynomolgus/crab-eating macaque and the Chinese rhesus macaque, are presented and several putatively dysfunctional genetic differences are identified, which may explain functional differences between them previously observed in clinical studies.
Journal ArticleDOI
The sequence and de novo assembly of the giant panda genome [Correction]
Ruiqiang Li,Ruiqiang Li,Wei Fan,Geng Tian,Geng Tian,Zhu Hongmei,Lin He,Lin He,Jing Cai,Jing Cai,Quanfei Huang,Qingle Cai,Qingle Cai,Bo Li,Yinqi Bai,Zhihe Zhang,Ya-Ping Zhang,Wen Wang,Jun Li,Fuwen Wei,Heng Li,Min Jian,Jianwen Li,Zhaolei Zhang,Rasmus Nielsen,Dawei Li,Wanjun Gu,Zhentao Yang,Zhaoling Xuan,Oliver A. Ryder,Frederick C. Leung,Yan Zhou,Jianjun Cao,Xiao Sun,Yonggui Fu,Xiaodong Fang,Xiaosen Guo,Bo Wang,Rong Hou,Fujun Shen,Bo Mu,Peixiang Ni,Runmao Lin,Wubin Qian,Guo-Dong Wang,Guo-Dong Wang,Chang Yu,Wenhui Nie,Jinhuan Wang,Zhigang Wu,Huiqing Liang,Jiumeng Min,Jiumeng Min,Qi Wu,Shifeng Cheng,Shifeng Cheng,Jue Ruan,Jue Ruan,Mingwei Wang,Zhongbin Shi,Ming Wen,Binghang Liu,Xiaoli Ren,Huisong Zheng,Dong Dong,Kathleen Cook,Gao Shan,Hao Zhang,Carolin Kosiol,Xueying Xie,Zuhong Lu,Hancheng Zheng,Yingrui Li,Yingrui Li,Cynthia C. Steiner,Tommy Tsan-Yuk Lam,Siyuan Lin,Qinghui Zhang,Guoqing Li,Jing Tian,Timing Gong,Hongde Liu,Dejin Zhang,Lin Fang,Chen Ye,Juanbin Zhang,Wenbo Hu,Anlong Xu,Yuanyuan Ren,Guojie Zhang,Guojie Zhang,Guojie Zhang,Michael William Bruford,Qibin Li,Qibin Li,Lijia Ma,Lijia Ma,Yiran Guo,Yiran Guo,Na An,Yujie Hu,Yujie Hu,Yang Zheng,Yang Zheng,Yongyong Shi,Zhiqiang Li,Qing Liu,Yanling Chen,Jing Zhao,Ning Qu,Ning Qu,Shancen Zhao,Feng Tian,Xiaoling Wang,Haiyin Wang,Lizhi Xu,Xiao Liu,Tomas Vinar,Yajun Wang,Tak-Wah Lam,Siu-Ming Yiu,Shiping Liu,Hemin Zhang,Desheng Li,Yan Huang,Xia Wang,Guohua Yang,Zhi Jiang,Junyi Wang,Nan Qin,Li Li,Jingxiang Li,Lars Bolund,Karsten Kristiansen,Karsten Kristiansen,Gane Ka-Shu Wong,Gane Ka-Shu Wong,Maynard V. Olson,Xiuqing Zhang,Songgang Li,Huanming Yang,Jian Wang,Jun Wang,Jun Wang +143 more
TL;DR: This corrects the article to show that the Higgs boson genome is a “spatially aggregating ‘spatiotemporal ’ organisation’, rather than a ‘cell-based’ organisation, which is more closely related to the immune system.