Population resequencing reveals local adaptation of Arabidopsis lyrata to serpentine soils

被引:0
|
作者
Thomas L Turner
Elizabeth C Bourne
Eric J Von Wettberg
Tina T Hu
Sergey V Nuzhdin
机构
[1] Molecular and Computational Biology,
[2] University of Southern California,undefined
[3] Gregor Mendel Institute,undefined
[4] Austrian Academy of Sciences,undefined
[5] The Macaulay Land Use Research Institute,undefined
[6] Craigiebuckler,undefined
[7] Evolution and Ecology,undefined
[8] University of California,undefined
[9] Present address: Evolution,undefined
[10] Ecology,undefined
[11] and Marine Biology Department,undefined
[12] University of California Santa Barbara,undefined
[13] Santa Barbara,undefined
[14] California,undefined
[15] USA.,undefined
来源
Nature Genetics | 2010年 / 42卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Thomas Turner and colleagues have applied next-generation sequencing technology to investigate the genetic basis of adaptive variation. They sequenced pools of DNA from geographically distinct Arabidopsis lyrata populations that are locally adapted to serpentine soils and analyzed 8 million polymorphisms, identifying a putative example of convergent evolution.
引用
收藏
页码:260 / 263
页数:3
相关论文
共 50 条
  • [1] Population resequencing reveals local adaptation of Arabidopsis lyrata to serpentine soils
    Turner, Thomas L.
    Bourne, Elizabeth C.
    Von Wettberg, Eric J.
    Hu, Tina T.
    Nuzhdin, Sergey V.
    NATURE GENETICS, 2010, 42 (03) : 260 - U42
  • [2] Serpentine populations of Arabidopsis lyrata ssp lyrata show evidence for local adaptation in response to nickel exposure at germination and during juvenile growth
    Veatch-Blohm, Maren E.
    Roche, Bernadette M.
    Dahl, Elizabeth E.
    ENVIRONMENTAL AND EXPERIMENTAL BOTANY, 2017, 138 : 1 - 9
  • [3] LOCAL ADAPTATION IN EUROPEAN POPULATIONS OF ARABIDOPSIS LYRATA (BRASSICACEAE)
    Leinonen, Paivi H.
    Sandring, Saskia
    Quilot, Benedicte
    Clauss, Maria J.
    Mitchell-Olds, Thomas
    Agren, Jon
    Savolainen, Outi
    AMERICAN JOURNAL OF BOTANY, 2009, 96 (06) : 1129 - 1137
  • [4] The genomic basis of adaptation to calcareous and siliceous soils in Arabidopsis lyrata
    Guggisberg, Alessia
    Liu, Xuanyu
    Suter, Leonie
    Mansion, Guilhem
    Fischer, Martin C.
    Fior, Simone
    Roumet, Marie
    Kretzschmar, Ruben
    Koch, Marcus A.
    Widmer, Alex
    MOLECULAR ECOLOGY, 2018, 27 (24) : 5088 - 5103
  • [5] Genomic Analysis of Differentiation between Soil Types Reveals Candidate Genes for Local Adaptation in Arabidopsis lyrata
    Turner, Thomas L.
    Von Wettberg, Eric J.
    Nuzhdin, Sergey V.
    PLOS ONE, 2008, 3 (09):
  • [6] Local adaptation to serpentine soils in Pinus ponderosa
    Jessica W. Wright
    Plant and Soil, 2007, 293 : 209 - 217
  • [7] Local adaptation to serpentine soils in Pinus ponderosa
    Wright, Jessica W.
    PLANT AND SOIL, 2007, 293 (1-2) : 209 - 217
  • [8] Local adaptation to serpentine and non-serpentine soils in Collinsia sparsiflora
    Wright, JW
    Stanton, ML
    Scherson, R
    EVOLUTIONARY ECOLOGY RESEARCH, 2006, 8 (01) : 1 - 21
  • [9] Genome resequencing reveals population divergence and local adaptation of blacklegged ticks in the United States
    Schoville, Sean D.
    Burke, Russell L.
    Dong, Dahn-young
    Ginsberg, Howard S.
    Maestas, Lauren
    Paskewitz, Susan M.
    Tsao, Jean I.
    MOLECULAR ECOLOGY, 2024, 33 (15)
  • [10] Genomic Patterns of Local Adaptation under Gene Flow in Arabidopsis lyrata
    Hamala, Tuomas
    Savolainen, Outi
    MOLECULAR BIOLOGY AND EVOLUTION, 2019, 36 (11) : 2557 - 2571
12345