All Ancient DNA

Short Name

Citation (Journal or APA)

DOI

Accession

Y-SNP calls

AdachiAmJPhysAnthropol2009

Adachi, N., Shinoda, K. I., Umetsu, K., & Matsumura, H. (2009). Mitochondrial DNA analysis of Jomon skeletons from the Funadomari site, Hokkaido, and its implication for the origins of

10.1002/ajpa.20923

AdachiAmJPhysAnthropol2011

Adachi, N., Shinoda, K. I., Umetsu, K., Kitano, T., Matsumura, H., Fujiyama, R., ... & Tanaka, M. (2011). Mitochondrial DNA analysis of Hokkaido Jomon skeletons: remnants of archaic ma

10.1002/ajpa.21561

AB550855-AB550908 (Data Bank Japan)

AdachiAnthropolSci2021

Adachi, N., Kanzawa-Kiriyama, H., Nara, T., Kakuda, T., Nishida, I., & Shinoda, K. I. (2021). Ancient genomes from the initial Jomon period: new insights into the genetic history of the Jap

10.1537/ase.2012132

AfanasievDobrovolskaya2014

Афанасьев Г.Е., Добровольская М.В., Коробов Д.С., Решетова И.К. О культурной, антропологической и генетической специфике донских алан. In: Е.И. Крупнов и развитие

(Link: Academia.edu)

AfanasievDobrovolskayaKSIA2015

Афанасьев Г.Е., Добровольская М.В., Коробов Д.С., Решетова И.К. Новые археологические, антропологические и генетические аспекты в изучении донских алан. In: КСИА.

КСИА

AfanasievWen2015

Афанасьев Г.Е., Вень Ш., Тун С., Ван Л., Вэй Л., Добровольская М.В., Коробов Д.С., Решетова И.К., Ли Х.. Хазарские конфедераты в бассейне Дона. In: Естественнонаучные

(Link: Academia.edu)

Afonso2010

Afonso, C. Contribuição do ADN antigo para o estudo das populações do Neolítico final/Calcolítico. Dissertação de Mestrado em Evolução e Biologia Humanas. Universidade de Coimbra (2010)

AgranatTamirCell2020

Agranat-Tamir, L., Waldman, S., Martin, M. A., Gokhman, D., Mishol, N., Eshel, T., ... & Lawson, A. M. (2020). The genomic history of the Bronze Age southern Levant. Cell, 181(5), 1146-

10.1016/j.cell.2020.04.024

PRJEB37057

Yleaf v.2.2 - hg38 (r 1, q 0, b 0)

AlborovaMustafinMFTI2020

Alborova, I.E., Mustafin, Kh.Kh., Stepanov, A.D., Tarasova, A.A., Engovatova, A.V. (2020). Исследование генофонда населения Древнего Ярославля

(Links: Oral Presentation)

AllentoftNature2015

Allentoft, M., Sikora, M., Sjögren, KG. et al. Population genomics of Bronze Age Eurasia. Nature 522, 167–172 (2015)

10.1038/nature14507

PRJEB9021

AlteraugeForensicSciIntGenet2020

Alterauge, A., Lösch, S., Sulzer, A., Gysi, M., & Haas, C. (2020). Beyond simple kinship and identification. aDNA analyses from a 17th-19th century crypt in Germany. Forensic Science Inte

10.1016/j.fsigen.2021.102498

Altınışık2015

Ezgi Altınışık. İnsan iskeletlerinde mitokondriyal genom analizi ve haplogrup tayini. DOCTORAL THESIS. İstanbul Üniversitesi (2015)

10.13140/RG.2.1.3722.3848

AltPLoSONE2014

Alt, K. W., Knipper, C., Peters, D., Müller, W., Maurer, A. F., Kollig, I., ... & Roth, C. (2014). Lombards on the move–an integrative study of the migration period cemetery at Szólád, Hunga

10.1371/journal.pone.0110793

AltPLoSONE2016

Alt, K. W., Zesch, S., Garrido-Pena, R., Knipper, C., Szécsényi-Nagy, A., Roth, C., ... & Arcusa Magallón, H. (2016). A community in life and death: the Late Neolithic megalithic tomb at Alt

10.1371/journal.pone.0146176

Alzualde2005

Alzualde Zuloaga, Ainhoa. Caracterización genética de la población humana de aldaieta (s. Vi-vii dc, País Vasco) significado biológico y comportamiento biosocial. Lectura en la Universi

Dialnet: 212366

AmbersForensicSciInt2021

Ambers A, Elwick K, Cropper ER, Brandhagen MD, Jones B, Durst J, Gilmore KK, Bruseth JE, Gill-King H, Mitochondrial DNA analysis of the putative skeletal remains of Sieur de Marle: Ge

10.1016/j.forsciint.2021.110682

AmorimNatCommun2018

Amorim, C.E.G., Vai, S., Posth, C. et al. Understanding 6th-century barbarian social organization and migration through paleogenomics. Nat Commun 9, 3547 (2018). https://doi.org/10.1

10.1038/s41467-018-06024-4

SRP132561

AnthonyBrill2019

Anthony, D. W. (2019). Ancient DNA, Mating Networks, and the Anatolian Split. In Dispersals and Diversification (pp. 21-53). Brill.

10.1163/9789004416192_003

AnthonyBrownCopenhagen2021

Anthony, D.W. & Brown, Dorcas (2021). Proto-Indo-European kinship according to ancient DNA from steppe cemeteries: preliminary results. Power, Gender and Mobility – Features of Indo-European Society by the University of Copenhagen March 26–27, 2021.

AnthonyJIES2019

Anthony, D. (2019). Archaeology, genetics and language in the steppes: a comment on Bomhard. J. Indo-Eur. Stud, 47(1-2), 175-198.

(Link: Academia.edu)

AntonioScience2019

Antonio, M. L., Gao, Z., Moots, H. M., Lucci, M., Candilio, F., Sawyer, S., ... & Aneli, S. (2019). Ancient Rome: A genetic crossroads of Europe and the Mediterranean. Science, 366(6466),

10.1126/science.aay6826

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BacaAmJPhysAnthropol2014

Baca, M., Molak, M., Sobczyk, M., Węgleński, P., & Stankovic, A. (2014). Locals, resettlers, and pilgrims: A genetic portrait of three pre‐Columbian Andean populations. American Journal

10.1002/ajpa.22524

KJ467539-KJ467563

BacaBMCGenet2012

Baca, M., Doan, K., Sobczyk, M., Stankovic, A., & Węgleński, P. (2012). Ancient DNA reveals kinship burial patterns of a pre-Columbian Andean community. BMC genetics, 13(1), 30.

10.1186/1471-2156-13-30

JN833681-JN833704

BaiJHumGenet2020

Gao, Y., Dong, G., Yang, X. et al. A review on the spread of prehistoric agriculture from southern China to mainland Southeast Asia. Sci. China Earth Sci. 63, 615–625 (2020)

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BalzeauSciRep2020

Balzeau, A., Turq, A., Talamo, S. et al. Pluridisciplinary evidence for burial for the La Ferrassie 8 Neandertal child. Sci Rep 10, 21230 (2020)

10.1038/s41598-020-77611-z

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BarqueraCurrBiol2020

Barquera, R., Lamnidis, T. C., Lankapalli, A. K., Kocher, A., Hernández-Zaragoza, D. I., Nelson, E. A., ... & Bos, K. (2020). Origin and Health Status of First-Generation Africans from Early C

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BelyaevMednikovaIARAN2018

Беляев, Л. А., & Медникова, М. Б. (2018). В поисках бояр Романовых.

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BeauPLoSONE2017

Beau, A., Rivollat, M., Réveillas, H., Pemonge, M. H., Mendisco, F., Thomas, Y., ... & Deguilloux, M. F. (2017). Multi-scale ancient DNA analyses confirm the western origin of Michelsbe

10.1371/journal.pone.0179742

KY485916-KY485933

BenazziScience2015

Benazzi, S., Slon, V., Talamo, S., Negrino, F., Peresani, M., Bailey, S. E., ... & Mannino, M. A. (2015). The makers of the Protoaurignacian and implications for Neandertal extinction. Scien

10.1126/science.aaa2773

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BennetbioRxiv2019

Bennett, E. A., Prat, S., Péan, S., Crépin, L., Yanevich, A., Puaud, S., ... & Geigl, E. M. (2019). The origin of the Gravettians: genomic evidence from a 36,000-year-old Eastern European. bi

10.1101/685404

BennetKaestleHumBiol2010

Bennett, C. C., & Kaestle, F. A. (2010). Investigation of ancient DNA from Western Siberia and the Sargat culture. Human biology, 82(2), 143-156

10.3378/027.082.0202

BlankArchaeolAnthropolSci2021

Blank, M., Sjögren, KG., Knipper, C. et al. Mobility patterns in inland southwestern Sweden during the Neolithic and Early Bronze Age. Archaeol Anthropol Sci 13, 64 (2021)

10.1007/s12520-021-01294-4

Bloecher2019

Blöcher, Jens. Genetic variation related to the adaptation of humans to an agriculturalist lifestyle. Diss. Johannes Gutenberg-Universität Mainz, 2019.

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BoaventuraAnthropologie2014

Boaventura, R., Ferreira M. T., Neves, M. J., & Silva, A. M. (2014). Funerary practices and anthropology during Middle-Late Neolithic (4th and 3rd millennia BCE) in Portugal: old bones, new insights. Anthropologie (Brno) 52, 2: 183-205

Anthropologie (Brno) 52, 2: 183-205

BogácsiSzabóHumBiol2005

Bogacsi-Szabo, E., Kalmar, T., Csanyi, B., Tömöry, G., Czibula, A., Priskin, K., ... & Rasko, I. (2005). Mitochondrial DNA of ancient Cumanians: culturally Asian steppe nomadic immigrants

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BogdanowiczPNAS2009

Bogdanowicz, W., Allen, M., Branicki, W., Lembring, M., Gajewska, M., & Kupiec, T. (2009). Genetic identification of putative remains of the famous astronomer Nicolaus Copernicus. Pr

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BokelmannPNAS2019

Bokelmann, L., Hajdinjak, M., Peyrégne, S., Brace, S., Essel, E., de Filippo, C., ... & Kelso, J. (2019). A genetic analysis of the Gibraltar Neanderthals. Proceedings of the National Academy

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BollonginoScience2013

Bollongino, R., Nehlich, O., Richards, M. P., Orschiedt, J., Thomas, M. G., Sell, C., ... & Burger, J. (2013). 2000 years of parallel societies in Stone Age Central Europe. Science, 342(6157),

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BongersPNAS2020

Bongers, J. L., Nakatsuka, N., O’Shea, C., Harper, T. K., Tantaleán, H., Stanish, C., & Fehren-Schmitz, L. (2020). Integration of ancient DNA with transdisciplinary dataset finds strong suppo

10.1073/pnas.2005965117

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BortoliniCurrBiol2021

Bortolini, E., Pagani, L., Oxilia, G, Posth, C., ... Benazzi, S. (2021) Early Alpine human occupation backdates westward human migration in Late Glacial Europe, Current Biology. In Press, 2

10.1016/j.cub.2021.03.078

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BoulyginaJArchaeolSciRep2020

Boulygina, E., Tsygankova, S., Sharko, F., Slobodova, N., Gruzdeva, N., Rastorguev, S., ... & Shvedchikova, T. (2020). Mitochondrial and Y-chromosome diversity of the prehistoric Koban c

10.1016/j.jasrep.2020.102357

BouwmanJArchaeolSci2008

Bouwman, A. S., Brown, K. A., Prag, A. J. N., & Brown, T. A. (2008). Kinship between burials from Grave Circle B at Mycenae revealed by ancient DNA typing. Journal of Archaeological Sc

10.1016/j.jas.2008.04.010

BracebioRxiv2018

Brace, S., Diekmann, Y., Booth, T. J., Faltyskova, Z., Rohland, N., Mallick, S., ... & Stewardson, K. (2018). Population replacement in early Neolithic Britain. BioRxiv, 267443

10.1101/685404

BraceNatEcolEvol2019

Brace, S., Diekmann, Y., Booth, T.J. et al. Ancient genomes indicate population replacement in Early Neolithic Britain. Nat Ecol Evol 3, 765–771 (2019)

10.1038/s41559-019-0871-9

PRJEB31249

BramantiAnthropologie2008

Bramanti B, 2008. Ancient DNA: genetic analysis of aDNA from sixteen skeletons of the Vedrovice. Anthropologie (Brno) 46, 2-3: 153-160

Anthropologie (Brno) 46, 2-3:153-160

BramantiScience2009

Bramanti, B., Thomas, M. G., Haak, W., Unterländer, M., Jores, P., Tambets, K., ... & Lueth, F. (2009). Genetic discontinuity between local hunter-gatherers and central Europe’s first far

10.1126/science.1176869

BrandtScience2013

Brandt, G., Haak, W., Adler, C. J., Roth, C., Szécsényi-Nagy, A., Karimnia, S., ... & Dresely, V. (2013). Ancient DNA reveals key stages in the formation of central European mitochondrial g

10.1126/science.1241844

Breidenstein2013

Breidenstein, Abagail M. Paleogenetic Investigation of Medieval Nubian Population from El-Kurru, Sudan. Poster

(Link: Academia.edu)

BriggsScience2009

Briggs, A. W., Good, J. M., Green, R. E., Krause, J., Maricic, T., Stenzel, U., ... & Gušić, I. (2009). Targeted retrieval and analysis of five Neandertal mtDNA genomes. Science, 325(5938), 3

10.1126/science.1174462

BrothertonNatCommun2013

Brotherton, P., Haak, W., Templeton, J. et al. Neolithic mitochondrial haplogroup H genomes and the genetic origins of Europeans. Nat Commun 4, 1764 (2013)

10.1038/ncomms2656

BroushakiScience2016

Broushaki, F., Thomas, M. G., Link, V., López, S., van Dorp, L., Kirsanow, K., ... & Kousathanas, A. (2016). Early Neolithic genomes from the eastern Fertile Crescent. Science, 353(6298), 4

10.1126/science.aaf7943

BrownSciRep2016

Brown, S., Higham, T., Slon, V., Pääbo, S., Meyer, M., Douka, K., ... & Derevianko, A. (2016). Identification of a new hominin bone from Denisova Cave, Siberia using collagen fingerprinti

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BrunelPNAS2020

Brunel, S., Bennett, E. A., Cardin, L., Garraud, D., Emam, H. B., Beylier, A., ... & Dedet, B. (2020). Ancient genomes from present-day France unveil 7,000 years of its demographic history. Proceedings of the National Academy of Sciences, 117(23), 12791-12798.

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BurgerCurrBiol2020

Burger, J., Link, Vivian, Blöcher, J, ....Low Prevalence of Lactase Persistence in Bronze Age Europe Indicates Ongoing Strong Selection over the Last 3,000 Year. Current Biology

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CaramelliHumGenet2007

Caramelli, D., Vernesi, C., Sanna, S., Sampietro, L., Lari, M., Castrì, L., ... & Casoli, A. (2007). Genetic variation in prehistoric Sardinia. Human genetics, 122(3-4), 327-336

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CardosRomJLegMed2004

Cardos, G., Stoian, V., Miritoiu, N., Comsa, A., Kroll, A., Voss, S., & Rodewald, A. (2004). Paleo-mtDNA analysis and population genetic aspects of old Thracian populations from South-East of Romania. Romanian Journal of Legal Medicine, 12(4), 239.

CarneseAmJPhysAnthropol2010

Carnese, F. R., Mendisco, F., Keyser, C., Dejean, C. B., Dugoujon, J. M., Bravi, C. M., ... & Crubézy, E. (2010). Paleogenetical study of pre‐columbian samples from Pampa Grande (Salta, A

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CasasAmJPhysAnthropol2006

Casas, M. J., Hagelberg, E., Fregel, R., Larruga, J. M., & González, A. M. (2006). Human mitochondrial DNA diversity in an archaeological site in al‐Andalus: genetic impact of migrations

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Cassidy2017

Cassidy, Lara, A Genomic Compendium of an Island: Documenting Continuity and Change across Irish Human Prehistory, Trinity College Dublin.School of Genetics & Microbiology.GENET

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CassidyNature2020

Cassidy, L.M., Maoldúin, R.Ó., Kador, T. et al. A dynastic elite in monumental Neolithic society. Nature 582, 384–388 (2020)

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CassidyPNAS2016

Cassidy, L. M., Martiniano, R., Murphy, E. M., Teasdale, M. D., Mallory, J., Hartwell, B., & Bradley, D. G. (2016). Neolithic and Bronze Age migration to Ireland and establishment of the i

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CemperKiesslichSalzburg2010

Cemper-Kiesslich, J., Wiltschke-Schrotta, K., Neuhuber, F., Tutsch-Bauer, E., Leskovar, J., & Moser, S. (2012). Kelten-DNA? Molekulararchäologische Betrachtungen zur ethnischen Zugehö

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Chandler2005

ZilhãoB, J. (2005). Using ancient DNA to examine genetic continuity at the Mesolithic-Neolithic transition in Portugal. In Actas del III Congreso del Neolítico en la Península Ibérica: Sant

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Chekunov2016

Chekunov, Mikhail Konstantinovich. Gaplogruppa R1b v bassejne reki Luga po rezul’tatam DNK-tipirovaniya kostnyh ostankov plohoj sohrannosti u derevni Izvoz [Haplogroup R1b in the L

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Chekunova2014

Chekunova Е.М., Yartseva N.V., Chekunov М.К., Мazurkevich А.N. ПЕРВЫЕ РЕЗУЛЬТАТЫ ГЕНОТИПИРОВАНИЯ КОРЕННЫХ ЖИТЕЛЕЙ И ЧЕЛОВЕЧЕСКИХ КОСТНЫХ ОСТАНКОВ ИЗ АРХЕОЛОГИЧЕСКИХ ПАМЯТНИКОВ ВЕРХНЕГО ПОДВИНЬЯ [The First Results of the Genotyping of the Aboriginals and Human Bone Remains of the Archeological Memorials of the Upper Podvin’e. IN: Archeology of the lake settlements of IV—II Thousands BC: The chronology of cultures and natural environment and climatic rhythms. Proceedings of the International Conference, Devoted to the 50-year Research of the Pile Settlements on the North-West of Russia. St. Petersburg, 13–15 November, 2014]

CherifiAmranibioRxiv2020

Cherifi, Y. M. S., & Amrani, S. (2020). Evaluation of DNA conservation in Nile-Saharan environment, Missiminia, in Nubia: Tracking maternal lineage of" X-Group". bioRxiv.

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ChernovRusin2019

Чернов, С. З., Гончарова, Н. Н., Меркулов, В. И., & Семенов, А. С. (2019). Результаты тестирования гаплогруппы Y-ДНК для средневекового славянского захоронения XII в.

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ChikishevaArcheolEthnolAnthropolEurasia2007

Chikisheva, T.A., Gubina, M.A., Kulikov, I.V. et al. A paleogenetic study of the prehistoric populations of the Altai. Archeol.Ethnol. Anthropol. Eurasia 32, 130–142 (2007)

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ChyleńskiBMCEvolBiol2017

Chyleński, M., Juras, A., Ehler, E. et al. Late Danubian mitochondrial genomes shed light into the Neolithisation of Central Europe in the 5th millennium BC. BMC Evol Biol 17, 80 (2017)

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ClementeCell2021

Clemente, F., Unterländer, M., Dolgova, O., Amorim, C.E., Coroado-Santos, F.,..., Papageorgopoulou, C. (2021) The genomic history of the Aegean palatial civilizations. Cell (In Press, 29 A

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ClissonJLegMed2002

Clisson, .I., Keyser, .C., Francfort, .H. et al. Genetic analysis of human remains from a double inhumation in a frozen kurgan in Kazakhstan (Berel site, Early 3rd Century BC). Int J Legal M

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CoutinhoAmJPhysAnthropol2020

Coutinho, A., Günther, T., Munters, A. R., Svensson, E. M., Götherström, A., Storå, J., ... & Jakobsson, M. (2020). The Neolithic Pitted Ware culture foragers were culturally but not genetic

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CoutinhoAmJPhysAnthropol2021

Coutinho, A., Malmström, H., Edlund, H., Henshilwood, C. S., van Niekerk, K. L., Lombard, M., ... & Jakobsson, M. (2021). Later Stone Age human hair from Vaalkrans Shelter, Cape Florist

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CrubezyBMCEvolBiol2010

Crubézy, E., Amory, S., Keyser, C. et al. Human evolution in Siberia: from frozen bodies to ancient DNA. BMC Evol Biol 10, 25 (2010)

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CsákyNature2020

Csáky, V., Gerber, D., Koncz, I. et al. Genetic insights into the social organisation of the Avar period elite in the 7th century AD Carpathian Basin. Sci Rep 10, 948 (2020)

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CsákySciRep2020

Csáky, V., Gerber, D., Szeifert, B. et al. Early medieval genetic data from Ural region evaluated in the light of archaeological evidence of ancient Hungarians. Sci Rep 10, 19137 (2020)

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CsányiAnnHumGenet2008

Csányi B, Bogácsi-Szabó E, Tömöry G, Czibula Á, Priskin K, Csõsz A, Mende B, Langó P, Csete K, Zsolnai A, Conant EK, Downes CS, Raskó I (2008) Y-chromosome analysis of ancient Hunga

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CsőszSciRep2016

Csősz, A., Szécsényi-Nagy, A., Csákyová, V. et al. Maternal Genetic Ancestry and Legacy of 10th Century AD Hungarians. Sci Rep 6, 33446 (2016)

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CuiBMCEvolBiol2013

Cui, Y., Li, H., Ning, C. et al. Y Chromosome analysis of prehistoric human populations in the West Liao River Valley, Northeast China. BMC Evol Biol 13, 216 (2013)

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CuiEvolHumSci2020

Cui, Y., Zhang, F., Ma, P., Fan, L., Ning, C., Zhang, Q., ... & Robbeets, M. (2020). Bioarchaeological perspective on the expansion of Transeurasian languages in Neolithic Amur River basin. Evolutionary Human Sciences, 2.

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DamgaardNature2018

Damgaard, P.d.B., Marchi, N., Rasmussen, S. et al. 137 ancient human genomes from across the Eurasian steppes. Nature 557, 369–374

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DamgaardScience2018

de Barros Damgaard, Peter, et al. "The first horse herders and the impact of early Bronze Age steppe expansions into Asia." Science 360.6396 (2018)

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Daskalaki2014

Daskalaki, E. (2014). Archaeological Genetics-Approaching Human History through DNA Analysis (Doctoral dissertation, Acta Universitatis Upsaliensis).

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DeguillouxAmJPhysAnthropol2010

Deguilloux, M. F., Soler, L., Pemonge, M. H., Scarre, C., Joussaume, R., & Laporte, L. (2011). News from the west: ancient DNA from a French megalithic burial chamber. American Journ

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DeguillouxJArchaeolSciRep2020

Deguilloux, M. F., Pemonge, M. H., Rivollat, M., & Lefebvre, A. (2018). Investigating the kinship between individuals deposited in exceptional Merovingian multiple burials through aDN

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delaFuentePNAS2018

De la Fuente, C., Ávila-Arcos, M. C., Galimany, J., Carpenter, M. L., Homburger, J. R., Blanco, A., ... & Moreno-Estrada, A. (2018). Genomic insights into the origin and diversification of la

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DelgadoQuaternaryInternational2020

Delgado, M., Rodríguez, F., Kassadjikova, K., & Fehren-Schmitz, L. (2020). A paleogenetic perspective of the Sabana de Bogotá (Northern South America) population history over the Holo

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DerSarkissian2011

Der Sarkissian, Clio Simone Irmgard (2011). Mitochondrial DNA in ancient human populations of Europe (Doctoral dissertation).

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DerSarkissianPLoSGenet2013

Der Sarkissian, C., Balanovsky, O., Brandt, G., Khartanovich, V., Buzhilova, A., Koshel, S., ... & Shumkin, V. (2013). Ancient DNA reveals prehistoric gene-flow from Siberia in the complex

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DevaultElife2017

Devault, A. M., Mortimer, T. D., Kitchen, A., Kiesewetter, H., Enk, J. M., Golding, G. B., ... & Gardner, S. N. (2017). A molecular portrait of maternal sepsis from Byzantine Troy. Elife, 6, e

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DevieseNatCommun2019

Devièse, T., Massilani, D., Yi, S. et al. Compound-specific radiocarbon dating and mitochondrial DNA analysis of the Pleistocene hominin from Salkhit Mongolia. Nat Commun 10, 274 (2

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