1,135 Genomes Reveal the Global Pattern of Polymorphism in Arabidopsis thaliana | Zendy

Carlos AlonsoBlanco | Zendy; Jorge Andrade | Zendy; Claude Becker | Zendy; Felix Bemm | Zendy; Joy Bergelson | Zendy; Karsten Borgwardt | Zendy; Jun Cao | Zendy; Eunyoung Chae | Zendy; Todd M. DeZwaan | Zendy; Wei Ding | Zendy; Joseph R. Ecker | Zendy; Moisés Expósito-Alonso | Zendy; Ashley Farlow | Zendy; Joffrey Fitz | Zendy; Xiangchao Gan | Zendy; Dominik G. Grimm | Zendy; Angela M. Hancock | Zendy; Stefan R. Henz | Zendy; Svante Holm | Zendy; Matthew Horton | Zendy; Mike Jarsulic | Zendy; Randall A. Kerstetter | Zendy; Arthur Korte | Zendy; Pamela Korte | Zendy; Christa Lanz | Zendy; ChengRuei Lee | Zendy; Dong Meng | Zendy; Todd P. Michael | Zendy; Richard Mott | Zendy; Ni Wayan Muliyati | Zendy; Thomas Nägele | Zendy; Matthias Nagler | Zendy; Viktoria Nizhynska | Zendy; Magnus Nordborg | Zendy; Poliovikova | Zendy; F. Xavier Picó | Zendy; Alexander Platzer | Zendy; Fernando A. Rabanal | Zendy; Álex Rodríguez | Zendy; Beth A. Rowan | Zendy; Patrice A. Salomé | Zendy; Karl Schmid | Zendy; Robert J. Schmitz | Zendy; Ümit Seren | Zendy; F. Gianluca Sperone | Zendy; Mitchell Sudkamp | Zendy; Hannes Svardal | Zendy; Matt M. Tanzer | Zendy; D. E. Todd | Zendy; Samuel L. Volchenboum | Zendy; Congmao Wang | Zendy; George Wang | Zendy; Xi Wang | Zendy; Wolfram Weckwerth | Zendy; Detlef Weigel | Zendy; Xuefeng Zhou | Zendy

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1,135 Genomes Reveal the Global Pattern of Polymorphism in Arabidopsis thaliana

Author(s) -

Carlos AlonsoBlanco,

Jorge Andrade,

Claude Becker,

Felix Bemm,

Joy Bergelson,

Karsten Borgwardt,

Jun Cao,

Eunyoung Chae,

Todd M. DeZwaan,

Wei Ding,

Joseph R. Ecker,

Moisés Expósito-Alonso,

Ashley Farlow,

Joffrey Fitz,

Xiangchao Gan,

Dominik G. Grimm,

Angela M. Hancock,

Stefan R. Henz,

Svante Holm,

Matthew Horton,

Mike Jarsulic,

Randall A. Kerstetter,

Arthur Korte,

Pamela Korte,

Christa Lanz,

ChengRuei Lee,

Dong Meng,

Todd P. Michael,

Richard Mott,

Ni Wayan Muliyati,

Thomas Nägele,

Matthias Nagler,

Viktoria Nizhynska,

Magnus Nordborg,

Poliovikova,

F. Xavier Picó,

Alexander Platzer,

Fernando A. Rabanal,

Álex Rodríguez,

Beth A. Rowan,

Patrice A. Salomé,

Karl Schmid,

Robert J. Schmitz,

Ümit Seren,

F. Gianluca Sperone,

Mitchell Sudkamp,

Hannes Svardal,

Matt M. Tanzer,

D. E. Todd,

Samuel L. Volchenboum,

Congmao Wang,

George Wang,

Xi Wang,

Wolfram Weckwerth,

Detlef Weigel,

Xuefeng Zhou

Publication year - 2016

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2016.05.063

Subject(s) - biology , genome , evolutionary biology , intraspecific competition , refugium (fishkeeping) , genetic diversity , genetic variation , arabidopsis thaliana , range (aeronautics) , habitat , genetics , ecology , gene , population , demography , materials science , sociology , mutant , composite material

Arabidopsis thaliana serves as a model organism for the study of fundamental physiological, cellular, and molecular processes. It has also greatly advanced our understanding of intraspecific genome variation. We present a detailed map of variation in 1,135 high-quality re-sequenced natural inbred lines representing the native Eurasian and North African range and recently colonized North America. We identify relict populations that continue to inhabit ancestral habitats, primarily in the Iberian Peninsula. They have mixed with a lineage that has spread to northern latitudes from an unknown glacial refugium and is now found in a much broader spectrum of habitats. Insights into the history of the species and the fine-scale distribution of genetic diversity provide the basis for full exploitation of A. thaliana natural variation through integration of genomes and epigenomes with molecular and non-molecular phenotypes.

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