TY - JOUR
T1 - Epigenomic Diversity in a Global Collection of Arabidopsis thaliana Accessions
AU - 1001 Genomes Consortium
AU - Kawakatsu, Taiji
AU - Huang, Shao shan Carol
AU - Jupe, Florian
AU - Sasaki, Eriko
AU - Schmitz, Robert J J.
AU - Urich, Mark A A.
AU - Castanon, Rosa
AU - Nery, Joseph R R.
AU - Barragan, Cesar
AU - He, Yupeng
AU - Chen, Huaming
AU - Dubin, Manu
AU - Lee, Cheng Ruei
AU - Wang, Congmao
AU - Bemm, Felix
AU - Becker, Claude
AU - O'Neil, Ryan
AU - O'Malley, Ronan C C.
AU - Quarless, Danjuma X X.
AU - Alonso-Blanco, Carlos
AU - Andrade, Jorge
AU - Becker, Claude
AU - Bemm, Felix
AU - Bergelson, Joy
AU - Borgwardt, Karsten
AU - Chae, Eunyoung
AU - Dezwaan, Todd
AU - Ding, Wei
AU - Ecker, Joseph R R.
AU - Expósito-Alonso, Moisés
AU - Farlow, Ashley
AU - Fitz, Joffrey
AU - Gan, Xiangchao
AU - Grimm, Dominik G G.
AU - Hancock, Angela
AU - Henz, Stefan R R.
AU - Holm, Svante
AU - Horton, Matthew
AU - Jarsulic, Mike
AU - Kerstetter, Randall A A.
AU - Korte, Arthur
AU - Korte, Pamela
AU - Nägele, Thomas
AU - Nagler, Matthias
AU - Nordborg, Magnus
AU - Novikova, Polina
AU - Platzer, Alexander
AU - Svardal, Hannes
AU - Weckwerth, Wolfram
AU - Nordborg, Magnus
N1 - Publisher Copyright:
© 2016 Elsevier Inc.
PY - 2016/7/14
Y1 - 2016/7/14
N2 - The epigenome orchestrates genome accessibility, functionality, and three-dimensional structure. Because epigenetic variation can impact transcription and thus phenotypes, it may contribute to adaptation. Here, we report 1,107 high-quality single-base resolution methylomes and 1,203 transcriptomes from the 1001 Genomes collection of Arabidopsis thaliana. Although the genetic basis of methylation variation is highly complex, geographic origin is a major predictor of genome-wide DNA methylation levels and of altered gene expression caused by epialleles. Comparison to cistrome and epicistrome datasets identifies associations between transcription factor binding sites, methylation, nucleotide variation, and co-expression modules. Physical maps for nine of the most diverse genomes reveal how transposons and other structural variants shape the epigenome, with dramatic effects on immunity genes. The 1001 Epigenomes Project provides a comprehensive resource for understanding how variation in DNA methylation contributes to molecular and non-molecular phenotypes in natural populations of the most studied model plant.
AB - The epigenome orchestrates genome accessibility, functionality, and three-dimensional structure. Because epigenetic variation can impact transcription and thus phenotypes, it may contribute to adaptation. Here, we report 1,107 high-quality single-base resolution methylomes and 1,203 transcriptomes from the 1001 Genomes collection of Arabidopsis thaliana. Although the genetic basis of methylation variation is highly complex, geographic origin is a major predictor of genome-wide DNA methylation levels and of altered gene expression caused by epialleles. Comparison to cistrome and epicistrome datasets identifies associations between transcription factor binding sites, methylation, nucleotide variation, and co-expression modules. Physical maps for nine of the most diverse genomes reveal how transposons and other structural variants shape the epigenome, with dramatic effects on immunity genes. The 1001 Epigenomes Project provides a comprehensive resource for understanding how variation in DNA methylation contributes to molecular and non-molecular phenotypes in natural populations of the most studied model plant.
KW - EPIGENETIC NATURAL VARIATION
KW - DNA METHYLATION
KW - GENES
KW - PATTERNS
KW - SEQUENCE
KW - FAMILY
KW - PLANTS
UR - https://www.scopus.com/pages/publications/84978196533
U2 - 10.1016/j.cell.2016.06.044
DO - 10.1016/j.cell.2016.06.044
M3 - Article
AN - SCOPUS:84978196533
SN - 0092-8674
VL - 166
SP - 492
EP - 505
JO - Cell
JF - Cell
IS - 2
ER -