Literature DB >> 19943892

Ancient DNA reveals traces of Iberian Neolithic and Bronze Age lineages in modern Iberian horses.

Jaime Lira1, Anna Linderholm, Carmen Olaria, Mikael Brandström Durling, M Thomas P Gilbert, Hans Ellegren, Eske Willerslev, Kerstin Lidén, Juan Luis Arsuaga, Anders Götherström.   

Abstract

Multiple geographical regions have been proposed for the domestication of Equus caballus. It has been suggested, based on zooarchaeological and genetic analyses that wild horses from the Iberian Peninsula were involved in the process, and the overrepresentation of mitochondrial D1 cluster in modern Iberian horses supports this suggestion. To test this hypothesis, we analysed mitochondrial DNA from 22 ancient Iberian horse remains belonging to the Neolithic, the Bronze Age and the Middle Ages, against previously published sequences. Only the medieval Iberian sequence appeared in the D1 group. Neolithic and Bronze Age sequences grouped in other clusters, one of which (Lusitano group C) is exclusively represented by modern horses of Iberian origin. Moreover, Bronze Age Iberian sequences displayed the lowest nucleotide diversity values when compared with modern horses, ancient wild horses and other ancient domesticates using nonparametric bootstrapping analyses. We conclude that the excessive clustering of Bronze Age horses in the Lusitano group C, the observed nucleotide diversity and the local continuity from wild Neolithic Iberian to modern Iberian horses, could be explained by the use of local wild mares during an early Iberian domestication or restocking event, whereas the D1 group probably was introduced into Iberia in later historical times.

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Year:  2009        PMID: 19943892     DOI: 10.1111/j.1365-294X.2009.04430.x

Source DB:  PubMed          Journal:  Mol Ecol        ISSN: 0962-1083            Impact factor:   6.185


  15 in total

1.  Mitochondrial genomes from modern horses reveal the major haplogroups that underwent domestication.

Authors:  Alessandro Achilli; Anna Olivieri; Pedro Soares; Hovirag Lancioni; Baharak Hooshiar Kashani; Ugo A Perego; Solomon G Nergadze; Valeria Carossa; Marco Santagostino; Stefano Capomaccio; Michela Felicetti; Walid Al-Achkar; M Cecilia T Penedo; Andrea Verini-Supplizi; Massoud Houshmand; Scott R Woodward; Ornella Semino; Maurizio Silvestrelli; Elena Giulotto; Luísa Pereira; Hans-Jürgen Bandelt; Antonio Torroni
Journal:  Proc Natl Acad Sci U S A       Date:  2012-01-30       Impact factor: 11.205

2.  Discovery of lost diversity of paternal horse lineages using ancient DNA.

Authors:  Sebastian Lippold; Michael Knapp; Tatyana Kuznetsova; Jennifer A Leonard; Norbert Benecke; Arne Ludwig; Morten Rasmussen; Alan Cooper; Jaco Weinstock; Eske Willerslev; Beth Shapiro; Michael Hofreiter
Journal:  Nat Commun       Date:  2011-08-23       Impact factor: 14.919

Review 3.  The Evolutionary Origin and Genetic Makeup of Domestic Horses.

Authors:  Pablo Librado; Antoine Fages; Charleen Gaunitz; Michela Leonardi; Stefanie Wagner; Naveed Khan; Kristian Hanghøj; Saleh A Alquraishi; Ahmed H Alfarhan; Khaled A Al-Rasheid; Clio Der Sarkissian; Mikkel Schubert; Ludovic Orlando
Journal:  Genetics       Date:  2016-10       Impact factor: 4.562

4.  European domestic horses originated in two holocene refugia.

Authors:  Vera Warmuth; Anders Eriksson; Mim A Bower; Javier Cañon; Gus Cothran; Ottmar Distl; Marie-Louise Glowatzki-Mullis; Harriet Hunt; Cristina Luís; Maria do Mar Oom; Isabel Tupac Yupanqui; Tomasz Ząbek; Andrea Manica
Journal:  PLoS One       Date:  2011-03-30       Impact factor: 3.240

5.  Origin and history of mitochondrial DNA lineages in domestic horses.

Authors:  Michael Cieslak; Melanie Pruvost; Norbert Benecke; Michael Hofreiter; Arturo Morales; Monika Reissmann; Arne Ludwig
Journal:  PLoS One       Date:  2010-12-20       Impact factor: 3.240

6.  Whole mitochondrial genome sequencing of domestic horses reveals incorporation of extensive wild horse diversity during domestication.

Authors:  Sebastian Lippold; Nicholas J Matzke; Monika Reissmann; Michael Hofreiter
Journal:  BMC Evol Biol       Date:  2011-11-14       Impact factor: 3.260

7.  Genetic analysis of mitochondrial DNA from ancient Equus caballus bones found at archaeological site of Joseon dynasty period capital area.

Authors:  Jong Ha Hong; Chang Seok Oh; Sun Kim; In Uk Kang; Dong Hoon Shin
Journal:  Anim Biosci       Date:  2022-03-01

8.  Genetic analysis of the Hungarian draft horse population using partial mitochondrial DNA D-loop sequencing.

Authors:  Nikolett Csizmár; Sándor Mihók; András Jávor; Szilvia Kusza
Journal:  PeerJ       Date:  2018-01-31       Impact factor: 2.984

9.  Genetic diversity in the modern horse illustrated from genome-wide SNP data.

Authors:  Jessica L Petersen; James R Mickelson; E Gus Cothran; Lisa S Andersson; Jeanette Axelsson; Ernie Bailey; Danika Bannasch; Matthew M Binns; Alexandre S Borges; Pieter Brama; Artur da Câmara Machado; Ottmar Distl; Michela Felicetti; Laura Fox-Clipsham; Kathryn T Graves; Gérard Guérin; Bianca Haase; Telhisa Hasegawa; Karin Hemmann; Emmeline W Hill; Tosso Leeb; Gabriella Lindgren; Hannes Lohi; Maria Susana Lopes; Beatrice A McGivney; Sofia Mikko; Nicholas Orr; M Cecilia T Penedo; Richard J Piercy; Marja Raekallio; Stefan Rieder; Knut H Røed; Maurizio Silvestrelli; June Swinburne; Teruaki Tozaki; Mark Vaudin; Claire M Wade; Molly E McCue
Journal:  PLoS One       Date:  2013-01-30       Impact factor: 3.240

10.  Tracking Five Millennia of Horse Management with Extensive Ancient Genome Time Series.

Authors:  Antoine Fages; Kristian Hanghøj; Naveed Khan; Charleen Gaunitz; Andaine Seguin-Orlando; Michela Leonardi; Christian McCrory Constantz; Cristina Gamba; Khaled A S Al-Rasheid; Silvia Albizuri; Ahmed H Alfarhan; Morten Allentoft; Saleh Alquraishi; David Anthony; Nurbol Baimukhanov; James H Barrett; Jamsranjav Bayarsaikhan; Norbert Benecke; Eloísa Bernáldez-Sánchez; Luis Berrocal-Rangel; Fereidoun Biglari; Sanne Boessenkool; Bazartseren Boldgiv; Gottfried Brem; Dorcas Brown; Joachim Burger; Eric Crubézy; Linas Daugnora; Hossein Davoudi; Peter de Barros Damgaard; María de Los Ángeles de Chorro Y de Villa-Ceballos; Sabine Deschler-Erb; Cleia Detry; Nadine Dill; Maria do Mar Oom; Anna Dohr; Sturla Ellingvåg; Diimaajav Erdenebaatar; Homa Fathi; Sabine Felkel; Carlos Fernández-Rodríguez; Esteban García-Viñas; Mietje Germonpré; José D Granado; Jón H Hallsson; Helmut Hemmer; Michael Hofreiter; Aleksei Kasparov; Mutalib Khasanov; Roya Khazaeli; Pavel Kosintsev; Kristian Kristiansen; Tabaldiev Kubatbek; Lukas Kuderna; Pavel Kuznetsov; Haeedeh Laleh; Jennifer A Leonard; Johanna Lhuillier; Corina Liesau von Lettow-Vorbeck; Andrey Logvin; Lembi Lõugas; Arne Ludwig; Cristina Luis; Ana Margarida Arruda; Tomas Marques-Bonet; Raquel Matoso Silva; Victor Merz; Enkhbayar Mijiddorj; Bryan K Miller; Oleg Monchalov; Fatemeh A Mohaseb; Arturo Morales; Ariadna Nieto-Espinet; Heidi Nistelberger; Vedat Onar; Albína H Pálsdóttir; Vladimir Pitulko; Konstantin Pitskhelauri; Mélanie Pruvost; Petra Rajic Sikanjic; Anita Rapan Papeša; Natalia Roslyakova; Alireza Sardari; Eberhard Sauer; Renate Schafberg; Amelie Scheu; Jörg Schibler; Angela Schlumbaum; Nathalie Serrand; Aitor Serres-Armero; Beth Shapiro; Shiva Sheikhi Seno; Irina Shevnina; Sonia Shidrang; John Southon; Bastiaan Star; Naomi Sykes; Kamal Taheri; William Taylor; Wolf-Rüdiger Teegen; Tajana Trbojević Vukičević; Simon Trixl; Dashzeveg Tumen; Sainbileg Undrakhbold; Emma Usmanova; Ali Vahdati; Silvia Valenzuela-Lamas; Catarina Viegas; Barbara Wallner; Jaco Weinstock; Victor Zaibert; Benoit Clavel; Sébastien Lepetz; Marjan Mashkour; Agnar Helgason; Kári Stefánsson; Eric Barrey; Eske Willerslev; Alan K Outram; Pablo Librado; Ludovic Orlando
Journal:  Cell       Date:  2019-05-02       Impact factor: 66.850
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