Partial genomic survival of cave bears in living brown bears

被引:0
|
作者
Axel Barlow
James A. Cahill
Stefanie Hartmann
Christoph Theunert
Georgios Xenikoudakis
Gloria G. Fortes
Johanna L. A. Paijmans
Gernot Rabeder
Christine Frischauf
Aurora Grandal-d’Anglade
Ana García-Vázquez
Marine Murtskhvaladze
Urmas Saarma
Peeter Anijalg
Tomaž Skrbinšek
Giorgio Bertorelle
Boris Gasparian
Guy Bar-Oz
Ron Pinhasi
Montgomery Slatkin
Love Dalén
Beth Shapiro
Michael Hofreiter
机构
[1] University of Potsdam,Institute for Biochemistry and Biology
[2] University of California,Department of Ecology and Evolutionary Biology
[3] Santa Cruz,Department of Integrative Biology
[4] University of California,Department of Evolutionary Genetics
[5] Berkeley,Department of Life Sciences and Biotechnology
[6] Max Planck Institute for Evolutionary Anthropology,Institute of Palaeontology
[7] University of Ferrara,Department of Zoology, Institute of Ecology and Earth Sciences
[8] University of Vienna,Department of Biology, Biotechnical Faculty
[9] Instituto Universitario de Xeoloxía,Institute of Archaeology and Ethnography
[10] Universidade da Coruña,Zinman Institute of Archaeology
[11] Ilia State University,Earth Institute
[12] Institute of Ecology,Department of Evolutionary Anthropology
[13] University of Tartu,Department of Bioinformatics and Genetics
[14] University of Ljubljana,undefined
[15] National Academy of Sciences of the Republic of Armenia,undefined
[16] University of Haifa,undefined
[17] University College Dublin,undefined
[18] University of Vienna,undefined
[19] Swedish Museum of Natural History,undefined
来源
Nature Ecology & Evolution | 2018年 / 2卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Although many large mammal species went extinct at the end of the Pleistocene epoch, their DNA may persist due to past episodes of interspecies admixture. However, direct empirical evidence of the persistence of ancient alleles remains scarce. Here, we present multifold coverage genomic data from four Late Pleistocene cave bears (Ursus spelaeus complex) and show that cave bears hybridized with brown bears (Ursus arctos) during the Pleistocene. We develop an approach to assess both the directionality and relative timing of gene flow. We find that segments of cave bear DNA still persist in the genomes of living brown bears, with cave bears contributing 0.9 to 2.4% of the genomes of all brown bears investigated. Our results show that even though extinction is typically considered as absolute, following admixture, fragments of the gene pool of extinct species can survive for tens of thousands of years in the genomes of extant recipient species.
引用
收藏
页码:1563 / 1570
页数:7
相关论文
共 50 条
  • [1] Partial genomic survival of cave bears in living brown bears
    Barlow, Axel
    Cahill, James A.
    Hartmann, Stefanie
    Theunert, Christoph
    Xenikoudakis, Georgios
    Gonzalez Fortes, Gloria
    Paijmans, Johanna L. A.
    Rabeder, Gernot
    Frischauf, Christine
    Grandal-d'Anglade, Aurora
    Garcia-Vazquez, Ana
    Murtskhvaladze, Marine
    Saarma, Urmas
    Anijalg, Peeter
    Skrbinsek, Tomaz
    Bertorelle, Giorgio
    Gasparian, Boris
    Bar-Oz, Guy
    Pinhasi, Ron
    Slatkin, Montgomery
    Dalen, Love
    Shapiro, Beth
    Hofreiter, Michael
    NATURE ECOLOGY & EVOLUTION, 2018, 2 (10): : 1563 - 1570
  • [2] Genomic sequencing of Pleistocene cave bears
    Noonan, JP
    Hofreiter, M
    Smith, D
    Priest, JR
    Rohland, N
    Rabeder, G
    Krause, J
    Detter, JC
    Pääbo, S
    Rubin, EM
    SCIENCE, 2005, 309 (5734) : 597 - 600
  • [3] Use of craniometry in discrimination of brown and cave bears
    Guzvica, G
    Huber, D
    Modric, S
    RadanovicGuzvica, B
    VETERINARSKI ARHIV, 1996, 66 (06) : 251 - 257
  • [4] Ancient DNA reveals differences in behaviour and sociality between brown bears and extinct cave bears
    Gonzalez Fortes, Gloria
    Grandal-d'Anglade, Aurora
    Kolbe, Ben
    Fernandes, Daniel
    Meleg, Ioana N.
    Garcia-Vazquez, Ana
    Pinto-Llona, Ana C.
    Constantin, Silviu
    de Torres, Trino J.
    Ortiz, Jose E.
    Frischauf, Christine
    Rabeder, Gernot
    Hofreiter, Michael
    Barlow, Axel
    MOLECULAR ECOLOGY, 2016, 25 (19) : 4907 - 4918
  • [5] A Shape in the Dark: Living and Dying with Brown Bears
    Marschall, Laurence A.
    NATURAL HISTORY, 2021, 129 (02) : 46 - 46
  • [6] Genomic evidence of geographically widespread effect of gene flow from polar bears into brown bears
    Cahill, James A.
    Stirling, Ian
    Kistler, Logan
    Salamzade, Rauf
    Ersmark, Erik
    Fulton, Tara L.
    Stiller, Mathias
    Green, Richard E.
    Shapiro, Beth
    MOLECULAR ECOLOGY, 2015, 24 (06) : 1205 - 1217
  • [7] A Shape in the Dark: Living and Dying with Brown Bears.
    O'Brien, Sue
    LIBRARY JOURNAL, 2020, 145 (12) : 104 - 104
  • [8] Genomic Evidence of Widespread Admixture from Polar Bears into Brown Bears during the Last Ice Age
    Cahill, James A.
    Heintzman, Peter D.
    Harris, Kelley
    Teasdale, Matthew D.
    Kapp, Joshua
    Soares, Andre E. R.
    Stirling, Ian
    Bradley, Daniel
    Edwards, Ceiridwen J.
    Graim, Kiley
    Kisleika, Aliaksandr A.
    Malev, Alexander, V
    Monaghan, Nigel
    Green, Richard E.
    Shapiro, Beth
    MOLECULAR BIOLOGY AND EVOLUTION, 2018, 35 (05) : 1120 - 1129
  • [9] Denning in brown bears
    Gonzalez-Bernardo, Enrique
    Francesco Russo, Luca
    Valderrabano, Esther
    Fernandez, Angel
    Penteriani, Vincenzo
    ECOLOGY AND EVOLUTION, 2020, 10 (13): : 6844 - 6862
  • [10] Bears and ants: myrmecophagy by brown bears in central Scandinavia
    Swenson, JE
    Jansson, A
    Riig, R
    Sandegren, F
    CANADIAN JOURNAL OF ZOOLOGY, 1999, 77 (04) : 551 - 561
12345