J
J. Chris Pires
Researcher at University of Missouri
Publications - 190
Citations - 19924
J. Chris Pires is an academic researcher from University of Missouri. The author has contributed to research in topics: Genome & Gene. The author has an hindex of 64, co-authored 178 publications receiving 16722 citations. Previous affiliations of J. Chris Pires include University of La Verne & University of Wisconsin-Madison.
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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
Early allopolyploid evolution in the post-Neolithic Brassica napus oilseed genome
Boulos Chalhoub,Shengyi Liu,Isobel A. P. Parkin,Haibao Tang,Haibao Tang,Xiyin Wang,Julien Chiquet,Harry Belcram,Chaobo Tong,Birgit Samans,Margot Correa,Corinne Da Silva,Jérémy Just,Cyril Falentin,Chu Shin Koh,Isabelle Le Clainche,Maria Bernard,Pascal Bento,Benjamin Noel,Karine Labadie,Adriana Alberti,Mathieu Charles,Dominique Arnaud,Hui Guo,Christian Daviaud,Salman Alamery,Kamel Jabbari,Kamel Jabbari,Meixia Zhao,Patrick P. Edger,Houda Chelaifa,David C. Tack,Gilles Lassalle,Imen Mestiri,Nicolas Schnel,Marie-Christine Le Paslier,Guangyi Fan,Victor Renault,Philippe E. Bayer,Agnieszka A. Golicz,Sahana Manoli,Tae-Ho Lee,Vinh Ha Dinh Thi,Smahane Chalabi,Qiong Hu,Chuchuan Fan,Reece Tollenaere,Yunhai Lu,Christophe Battail,Jinxiong Shen,Christine Sidebottom,Xinfa Wang,Aurélie Canaguier,Aurélie Chauveau,Aurélie Bérard,G. Deniot,Mei Guan,Zhongsong Liu,Fengming Sun,Yong Pyo Lim,Eric Lyons,Christopher D. Town,Ian Bancroft,Xiaowu Wang,Jinling Meng,Jianxin Ma,J. Chris Pires,Graham J.W. King,Dominique Brunel,Régine Delourme,Michel Renard,Jean-Marc Aury,Keith L. Adams,Jacqueline Batley,Jacqueline Batley,Rod J. Snowdon,Jörg Tost,David Edwards,David Edwards,Yongming Zhou,Wei Hua,Andrew G. Sharpe,Andrew H. Paterson,Chunyun Guan,Patrick Wincker,Patrick Wincker,Patrick Wincker +86 more
TL;DR: The polyploid genome of Brassica napus, which originated from a recent combination of two distinct genomes approximately 7500 years ago and gave rise to the crops of rape oilseed, is sequenced.
Journal ArticleDOI
The Brassica oleracea genome reveals the asymmetrical evolution of polyploid genomes
Shengyi Liu,Yumei Liu,Xinhua Yang,Chaobo Tong,David Edwards,Isobel A. P. Parkin,Meixia Zhao,Jianxin Ma,Jingyin Yu,Shunmou Huang,Xiyin Wang,Junyi Wang,Kun Lu,Zhiyuan Fang,Ian Bancroft,Tae-Jin Yang,Qiong Hu,Xinfa Wang,Zhen Yue,Haojie Li,Linfeng Yang,Jian Wu,Qing Zhou,Wanxin Wang,Graham J.W. King,J. Chris Pires,Changxin Lu,Zhangyan Wu,Perumal Sampath,Zhuo Wang,Hui Guo,Shengkai Pan,Limei Yang,Jiumeng Min,Dong Zhang,Dianchuan Jin,Wanshun Li,Harry Belcram,Jinxing Tu,Mei Guan,Cunkou Qi,Dezhi Du,Jiana Li,Liangcai Jiang,Jacqueline Batley,Andrew G. Sharpe,Beom Seok Park,Pradeep Ruperao,Feng Cheng,Nomar Espinosa Waminal,Yin Huang,Caihua Dong,Li Wang,Jingping Li,Zhiyong Hu,Mu Zhuang,Yi Huang,Junyan Huang,Jiaqin Shi,Desheng Mei,Jing Liu,Tae-Ho Lee,Jinpeng Wang,Huizhe Jin,Zaiyun Li,Xun Li,Jiefu Zhang,Lu Xiao,Yongming Zhou,Zhongsong Liu,Xuequn Liu,Rui Qin,Xu Tang,Wenbin Liu,Yupeng Wang,Yangyong Zhang,Jonghoon Lee,Hyun Hee Kim,Xun Xu,Xinming Liang,Wei Hua,Xiaowu Wang,Jun Wang,Boulos Chalhoub,Andrew H. Paterson +84 more
TL;DR: A draft genome sequence of Brassica oleracea is described, comparing it with that of its sister species B. rapa to reveal numerous chromosome rearrangements and asymmetrical gene loss in duplicated genomic blocks.
Journal ArticleDOI
Understanding mechanisms of novel gene expression in polyploids.
Thomas C. Osborn,J. Chris Pires,James A. Birchler,Donald L. Auger,Z. Jeffery Chen,Hyeon Se Lee,Luca Comai,Andreas Madlung,Rebecca W. Doerge,Vincent Colot,Robert A. Martienssen +10 more
TL;DR: Polyploidy has long been recognized as a prominent force shaping the evolution of eukaryotes, especially flowering plants, and new phenotypes often arise with polyploid formation.
Journal ArticleDOI
Genomic Changes in Resynthesized Brassica napus and Their Effect on Gene Expression and Phenotype
Robert T. Gaeta,J. Chris Pires,J. Chris Pires,Federico L. Iniguez-Luy,Enrique J. León,Thomas C. Osborn +5 more
TL;DR: Genetic, epigenetic, gene expression, and phenotypic changes in ∼50 resynthesized Brassica napus lines independently derived by hybridizing double haploids of Brassica oleracea and Brassica rapa indicate that exchanges among homoeologous chromosomes are a major mechanism creating novel allele combinations and phenotypesic variation in newly formed B. napus polyploids.