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Eric Lyons
Researcher at University of Arizona
Publications - 144
Citations - 15763
Eric Lyons is an academic researcher from University of Arizona. The author has contributed to research in topics: Genome & Comparative genomics. The author has an hindex of 42, co-authored 128 publications receiving 13136 citations. Previous affiliations of Eric Lyons include University of Guelph & Molecular Sciences Institute.
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Journal ArticleDOI
The Sorghum bicolor genome and the diversification of grasses
Andrew H. Paterson,John E. Bowers,Rémy Bruggmann,Inna Dubchak,Jane Grimwood,Heidrun Gundlach,Georg Haberer,Uffe Hellsten,Therese Mitros,Alexander Poliakov,Jeremy Schmutz,Manuel Spannagl,Haibao Tang,Xiyin Wang,Xiyin Wang,Thomas Wicker,Arvind K. Bharti,Jarrod Chapman,F. Alex Feltus,F. Alex Feltus,Udo Gowik,Igor V. Grigoriev,Eric Lyons,Christopher G. Maher,Mihaela Martis,Apurva Narechania,Robert Otillar,Bryan W. Penning,Asaf Salamov,Yu Wang,Lifang Zhang,Nicholas C. Carpita,Michael Freeling,Alan R. Gingle,C. Thomas Hash,Beat Keller,Patricia E. Klein,Stephen Kresovich,Maureen C. McCann,Ray Ming,Daniel G. Peterson,Daniel G. Peterson,Mehboob-ur-Rahman,Mehboob-ur-Rahman,Doreen Ware,Doreen Ware,Peter Westhoff,Klaus F. X. Mayer,Joachim Messing,Daniel S. Rokhsar,Daniel S. Rokhsar +50 more
TL;DR: An initial analysis of the ∼730-megabase Sorghum bicolor (L.) Moench genome is presented, placing ∼98% of genes in their chromosomal context using whole-genome shotgun sequence validated by genetic, physical and syntenic information.
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 draft genome of the transgenic tropical fruit tree papaya (Carica papaya Linnaeus)
Ray Ming,Shaobin Hou,Yun Feng,Qingyi Yu,Alexandre Dionne-Laporte,Jimmy H. Saw,Pavel Senin,Wei Wang,Benjamin V. Ly,Kanako L. T. Lewis,Steven L. Salzberg,Lu Feng,Matthew Jones,Rachel L. Skelton,Jan E. Murray,Cuixia Chen,Wubin Qian,Junguo Shen,Peng Du,Moriah Eustice,Eric J. Tong,Haibao Tang,Eric Lyons,Robert E. Paull,Todd P. Michael,Kerr Wall,Danny W. Rice,Henrik H. Albert,Ming Li Wang,Yun J. Zhu,Michael C. Schatz,Niranjan Nagarajan,Ricelle A. Acob,Peizhu Guan,Andrea Blas,Ching Man Wai,Christine M. Ackerman,Yan Ren,Chao Liu,Jianmei Wang,Jianping Wang,Jong Kuk Na,Eugene V. Shakirov,Brian J. Haas,Jyothi Thimmapuram,David R. Nelson,Xiyin Wang,John E. Bowers,Andrea R. Gschwend,Arthur L. Delcher,Ratnesh Singh,Jon Y. Suzuki,Savarni Tripathi,Neupane Kabi Raj,Hairong Wei,Beth Irikura,Maya Devi Paidi,Ning Jiang,Wenli Zhang,Gernot G. Presting,Aaron J. Windsor,Rafael Navajas-Pérez,Manuel J. Torres,F. Alex Feltus,Brad W. Porter,Yingjun Li,A. Max Burroughs,Ming-Cheng Luo,Lei Liu,David A. Christopher,Stephen M. Mount,Paul H. Moore,Tak Sugimura,Jiming Jiang,Mary A. Schuler,Vikki Friedman,Thomas Mitchell-Olds,Dorothy E. Shippen,Claude W. dePamphilis,Jeffrey D. Palmer,Michael Freeling,Andrew H. Paterson,Dennis Gonsalves,Lei Wang,Maqsudul Alam +84 more
TL;DR: Papaya offers numerous advantages as a system for fruit-tree functional genomics, and this draft genome sequence provides the foundation for revealing the basis of Carica’s distinguishing morpho-physiological, medicinal and nutritional properties.
Journal ArticleDOI
The banana (Musa acuminata) genome and the evolution of monocotyledonous plants
Angélique D'Hont,Jean-Marc Aury,Franc-Christophe Baurens,Françoise Carreel,Olivier Garsmeur,Benjamin Noel,Stéphanie Bocs,Gaëtan Droc,Mathieu Rouard,Corinne Da Silva,Kamel Jabbari,Kamel Jabbari,Kamel Jabbari,Céline Cardi,Julie Poulain,Marlã̈ne Souquet,Karine Labadie,Cyril Jourda,Juliette Lengellé,Marguerite Rodier-Goud,Adriana Alberti,Maria Bernard,Margot Correa,Saravanaraj Ayyampalayam,Michael R. McKain,Jim Leebens-Mack,Diane Burgess,Michael Freeling,Didier Mbéguié-A-Mbéguié,Matthieu Chabannes,Thomas Wicker,Olivier Panaud,Jose Barbosa,E. Hribova,Pat Heslop-Harrison,Rémy Habas,Ronan Rivallan,Philippe Francois,Claire Poiron,Andrzej Kilian,Dheema Burthia,Christophe Jenny,Frédéric Bakry,Spencer Brown,Valentin Guignon,Valentin Guignon,Gert H. J. Kema,Miguel A. Dita,Cees Waalwijk,Steeve Joseph,Anne Dievart,Olivier Jaillon,Olivier Jaillon,Olivier Jaillon,Julie Leclercq,Xavier Argout,Eric Lyons,Ana Maria Rocha de Almeida,Mouna Jeridi,Jaroslav Dolezel,Nicolas Roux,Ange-Marie Risterucci,Jean Weissenbach,Jean Weissenbach,Jean Weissenbach,Manuel Ruiz,Jean-Christophe Glaszmann,Francis Quetier,Nabila Yahiaoui,Patrick Wincker,Patrick Wincker,Patrick Wincker +71 more
TL;DR: This first monocotyledon high-continuity whole-genome sequence reported outside Poales represents an essential bridge for comparative genome analysis in plants and clarifies commelinid-monocotYledon phylogenetic relationships, reveals Poaceae-specific features and has led to the discovery of conserved non-coding sequences predating monocotinoid–eudicotylingon divergence.
Journal ArticleDOI
The Selaginella genome identifies genetic changes associated with the evolution of vascular plants.
Jo Ann Banks,Tomoaki Nishiyama,Mitsuyasu Hasebe,Mitsuyasu Hasebe,John L. Bowman,John L. Bowman,Michael Gribskov,Claude W. dePamphilis,Victor A. Albert,Naoki Aono,Tsuyoshi Aoyama,Tsuyoshi Aoyama,Barbara A. Ambrose,Neil W. Ashton,Michael J. Axtell,Elizabeth I. Barker,Michael S. Barker,Jeffrey L. Bennetzen,Nicholas D. Bonawitz,Clint Chapple,Chaoyang Cheng,Luiz Gustavo Guedes Corrêa,Michael Dacre,Jeremy D. DeBarry,Ingo Dreyer,Marek Eliáš,Eric M. Engstrom,Mark Estelle,Liang Feng,Cédric Finet,Sandra K. Floyd,Wolf B. Frommer,Tomomichi Fujita,Lydia Gramzow,Michael Gutensohn,Michael Gutensohn,Jesper Harholt,Mitsuru Hattori,Mitsuru Hattori,Alexander Heyl,Tadayoshi Hirai,Yuji Hiwatashi,Yuji Hiwatashi,Masaki Ishikawa,Mineko Iwata,Kenneth G. Karol,Barbara Koehler,Uener Kolukisaoglu,Uener Kolukisaoglu,Minoru Kubo,Tetsuya Kurata,Sylvie Lalonde,Kejie Li,Ying Li,Ying Li,Amy Litt,Eric Lyons,Gerard Manning,Takeshi Maruyama,Todd P. Michael,Koji Mikami,Saori Miyazaki,Saori Miyazaki,Shin-Ichi Morinaga,Shin-Ichi Morinaga,TakashiMurata,TakashiMurata,Bernd Mueller-Roeber,David R. Nelson,Mari Obara,Yasuko Oguri,Richard G. Olmstead,Naoko T. Onodera,Bent O. Petersen,Birgit Pils,Michael J. Prigge,Stefan A. Rensing,Diego Mauricio Riaño-Pachón,Diego Mauricio Riaño-Pachón,Alison W. Roberts,Yoshikatsu Sato,Henrik Vibe Scheller,Henrik Vibe Scheller,Burkhard Schulz,Christian Schulz,Eugene V. Shakirov,Nakako Shibagaki,Naoki Shinohara,Dorothy E. Shippen,Iben Sørensen,Iben Sørensen,Ryo Sotooka,Nagisa Sugimoto,Mamoru Sugita,Naomi Sumikawa,Milos Tanurdzic,Günter Theißen,Peter Ulvskov,Sachiko Wakazuki,Jing-Ke Weng,Jing-Ke Weng,William G.T. Willats,Daniel Wipf,Paul G. Wolf,Lixing Yang,Andreas Zimmer,Qihui Zhu,Therese Mitros,Uffe Hellsten,Dominique Loqué,Robert Otillar,Asaf Salamov,Jeremy Schmutz,Harris Shapiro,Erika Lindquist,Susan Lucas,Daniel S. Rokhsar,Daniel S. Rokhsar,Igor V. Grigoriev +118 more
TL;DR: The genome sequence of the lycophyte Selaginella moellendorffii (Selaginella), the first nonseed vascular plant genome reported, is reported, finding that the transition from a gametophytes- to a sporophyte-dominated life cycle required far fewer new genes than the Transition from a non Seed vascular to a flowering plant.