Bibliography of ancient Western Eurasian DNA
- Adler, C.J. (2012), Ancient
DNA Studies of Human Evolution. PhD dissertation, Australian Centre for
Ancient DNA, University of Adelaide, January 2012.
- Afonso, C.A.P. (2010), Contribuiçăo do ADN antigo
para o estudo das populaçőes do Neolítico final/Calcolítico portuguesas.
Thesis, Universidade de Coimbra.
- Alexeeva, T.I et al. (2000), Homo Sungirensis,
Upper Palaeolithic man: ecological and evolutionary aspects of the
investigation and see The Sunghir archaeological
site for online summaries of the data, and Ovchinnikov and Goodwin 2003 for critique.
- Alzualde, A. et al. (2005), Temporal
Mitochondrial DNA Variation in the Basque Country: Influence of
Post-Neolithic Events, Annals of Human Genetics, vol. 69,
no. 6, pp. 665-79.
- Alzualde, A. (2006), Insights
into the 'Isolation' of the Basques: MtDNA Lineages from the Historical
Site of Aldaieta (6th-7th Centuries AD) [pdf], American Journal
of Physical Anthropology, vol. 130, no. 3 (July 2006), pp.
394-404.
- Alzualde, A. (2007), Influences
of the European Kingdoms of Late Antiquity on the Basque Country: an
ancient-DNA study, Current Anthropology, vol. 48, no.
1.
- Arroyo Pardo, E., E. Fernández Domínguez and A. O.
Foix (2006), La
Problematica del origen de los Iberos segun la secuencia genetica de los
restos humanos [pdf], Lucentum, vol. 25 (2006), pp. 13-22.
- Bandelt (2005), Hans-Jürgen, Mosaics of ancient
mitochondrial DNA: positive indicators of nonauthenticity,
European Journal of Human Genetics, vol. 13, pp.
1106–1112.
- Banffy. E. et al, 'Early
Neolithic' graves are in fact 6000 years younger - appeal for real
interdisciplinarity between archaeology and ancient DNA research,
Journal of Human Genetics, advance online publication, 7 June
2012.
- Bennett, C.C. and F.A. Kaestle
(2010), Investigation of
Ancient DNA from Western Siberia and the Sargat Culture, Human
Biology, vol. 82, no. 2 (April 2010), pp. 143-156.
- Bogácsi-Szabó, E.
(2005), Mitochondrial
DNA of ancient Cumanians: culturally Asian steppe nomadic immigrants with
substantially more western Eurasian mitochondrial DNA lineages,
Human Biology, vol.77, no. 5 (October 2005), pp. 639-62.
- Bogdanowicz, W. et al.
(2009), Genetic identification of putative remains of the famous astronomer
Nicolaus Copernicus, Proceedings of the
National Acadamy of Sciences of the USA (Published online before
print July 7, 2009).
- Bouakaze, C., et al. (2007),
First
successful assay of Y-SNP typing by SNaPshot minisequencing on ancient
DNA, International Journal of Legal Medicine, vol. 121,
no. 6, pp. 493-9.
- Bouakaze, C., et al. (2009),
Pigment phenotype and
biogeographical ancestry from ancient skeletal remains: inferences from
multiplexed autosomal SNP analysis, International Journal of
Legal Medicine, vol. 123, no. 4 .
- Bouwman, A. S. (2008), Kinship between burials
from Grave Circle B at Mycenae revealed by ancient DNA typing,
Journal of Archaeological Science, vol. 35, no. 9 (Sep 2008),
pp. 2580-2584.
- Bramanti, B. (2008), Ancient
DNA: Genetic analysis of aDNA from sixteen skeletons of the Vedrovice,
Anthropologie (Journal of the Moravske Zemske Muzeum), vol.
46, nos. 2-3, pp. 153-160.
- Bramanti, B. et al. (2009),
Genetic Discontinuity
Between Local Hunter-Gatherers and Central Europe’s First
Farmers, Science, vol. 326. no. 5949 (October 2009), pp.
137-140.
- Brotherton, P. (2013),
Neolithic mitochondrial
haplogroup H genomes and the genetic origins of Europeans, Nature
Communications, 4, Article number: 1764.
- Burger, J. et al. (2007), Absence of the
lactase-persistence-associated allele in early Neolithic Europeans,
Proceedings of the National Academy of Sciences USA, vol. 104,
no. 10, pp. 3736-3741.
- Caramelli, D. et al.
(2003), Evidence for a
genetic discontinuity between Neandertals and 24,000-year-old anatomically
modern Europeans, Proceedings of the National Academy of Sciences
of the United States of America, vol. 100, no. 11, pp. 6593-6597;
but see Bandelt 2005.
- Caramelli, D. et al.
(2007), Genetic
analysis of the skeletal remains attributed to Francesco Petrarca,
Forensic Science International, vol. 173, no. 1, pp.
36-40.
- Caramelli, D. et al.
(2007), Genetic
variation in prehistoric Sardinia, Human Genetics,
vol.122, nos. 3-4 (Nov 2007), pp. 327-336.
- Caramelli, D. et al.
(2008), A 28,000
Years Old Cro-Magnon mtDNA Sequence Differs from All Potentially
Contaminating Modern Sequences, PloS ONE, vol. 3, no. 3
.
- Cardos, G. et al. (2004), Paleo-mtDNA
analysis and population genetic aspects of old Thracian populations from
South-East of Romania, Romanian Journal of Legal Medicine,
vol. 12, no. 4, pp. 239 – 246.
- Casas, M.J., et al. (2006), Human Mitochondrial DNA
Diversity in an Archaeological Site in al-Andalus: Genetic Impact of
Migrations from North Africa in Medieval Spain, American Journal
of Physical Anthropology, vol. 131, pp. 539-551.
- Chandler, H., Sykes, B. and
Zilhăo, J. (2005), Using
ancient DNA to examine genetic continuity at the Mesolithic-Neolithic
transition in Portugal, in P. Arias, R. Ontanon and C. Garcia-Monco
(eds.), Actas del III Congreso del Neolitico en la Peninsula
Iberica, pp. 781-86.
- Charlier, P. et al. (2012),
Genetic
comparison of the head of Henri IV and the presumptive blood from Louis XVI
(both Kings of France), Forensic Science International,
online ahead of print 30 December 2012
- Chikisheva, T.A. et al.
(2007), A paleogenetic
study of the prehistoric populations of the Altai, Archaeology,
Ethnology and Anthropology of Eurasia, vol. 4, no. 32, pp.
130-142.
- Chilvers, E.R. (2008), Ancient DNA in human
bones from Neolithic and Bronze Age sites in Greece and Crete,
Journal of Archaeological Science, vol. 35 , pp.
2707–2714. Describes the attempt to retrieve aDNA. The actual aDNA
results are reported in Bouwman 2008.
- Clisson, I. et al. (2002), Genetic
analysis of human remains from a double inhumation in a frozen kurgan in
Kazakhstan (Berel site, Early 3rd Century BC), International
Journal of Legal Medicine, vol. 116, no. 5 (Oct 2002).
- Coble MD, et al. (2009), Mystery Solved: The
Identification of the Two Missing Romanov Children Using DNA Analysis,
PLoS ONE, vol. 4, no. 3: e4838.
- Csányi, B. et al. (2008), Y-Chromosome
Analysis of Ancient Hungarian and Two Modern Hungarian-Speaking Populations
from the Carpathian Basin, Annals of Human Genetics,
vol.72, no. 4, pp. 519 - 534.
- Deguilloux, M-F. et al.
(2010), News from the west:
Ancient DNA from a French megalithic burial chamber, American
Journal of Physical Anthropology (online ahead of print August
2010).
- Delsate, D. et al. (2009), De
l’ocre sur le crâne mésolithique (haplogroupe U5a) de
Reuland-Loschbour (Grand-Duché de Luxembourg), Bulletin de la Société
Préhistorique Luxembourgeoise, vol. 31, pp. 7-30.
- Der
Sarkissian, C. (2011), Mitochondrial
DNA in ancient human populations of Europe. Thesis (Ph.D.), University
of Adelaide, School of Earth and Environmental Sciences.
- Der Sarkissian, C. et
al. (2013), Ancient DNA reveals
prehistoric gene-flow from Siberia in the complex human population history
of north east Europe, PloS Genetics, vol. 9. no. 2,
e1003296.
- Di Benedetto et al.
(2000), Mitochondrial
DNA sequences in prehistoric human remains from the Alps,
European Journal of Human Genetics, vol. 8, pp.
669–677.
- Di Bernardo, G. et al.
(2009), Ancient
DNA and Family Relationships in a Pompeian House, Annals of Human
Genetics, vol. 73, no. 4 , pp. 429-437.
- Dissing, J. (2007), The last Viking King: a
royal maternity case solved by ancient DNA analysis, Forensic
Science International vol. 166, no. 1 (Feb 2007), pp. 21-7.
- Endicott, P. et al. (2009),
Genotyping
human ancient mtDNA control and coding region polymorphisms with a
multiplexed Single-Base-Extension assay: the singular maternal history of
the Tyrolean Iceman, BMC Genetics.
- Ermini, L. et al. (2008), Complete
Mitochondrial Genome Sequence of the Tyrolean Iceman, Current
Biology, (3 Oct 2008).
- Fernández Domínguez, E.
(2005), Polimorfismos
de DNA mitocondrial en poblaciones antiguas de la cuenca mediterránea.
(Doctoral thesis).
- Fernández, E. et al.
(2006), MtDNA
analysis of ancient samples from Castellón (Spain): Diachronic variation
and genetic relationships, International Congress Series,
vol. 1288 (April 2006), pp. 127-129.
- Fernández, E. et al.
(2008), Mitochondrial DNA
genetic relationships at the ancient Neolithic site of Tell Halula,
Forensic Science International: Genetics Supplement Series,
vol.1, no. 1, pp. 271–273.
- Francalacci, P.
(1995), DNA analysis of ancient desiccated corpses from Xinjiang, Journal
of Indoeuropean Studies, vol. 23, pp. 385–389.
- Freder, J. (2010), Die
mittelalterlichen Skelette von Usedom: The mediaeval skeletons of
Usedom (Dissertation Free University Berlin 2010).
- Fregel, R. et al. (2009), Demographic history of
Canary Islands male gene-pool: replacement of native lineages by
European, BMC Evolutionary Biology, vol. 9, article no.181
(3 Aug 2009).
- Fu, Q. et al. (2013), A revised
timescale for human evolution based on ancient mitochondrial genomes,
Current Biology, 21 March 2013.
- Gamba, C., Fernández, E. et al.
(2008), Population
genetics and DNA preservation in ancient human remains from Eastern
Spain, Forensic Science International: Genetics Supplement
Series, vol. 1, no. 1, (August 2008), pp. 462-464.
- Gamba, C. et al. (2012), Ancient DNA from
an Early Neolithic Iberian population supports a pioneer colonization by
first farmers, Molecular Ecology, vol. 21, no. 1 (January
2012), pp. 45–56.
- Gao, S. et al. (2008), Mitochondrial
DNA analysis of human remains from the Yuansha site in Xinjiang,
Science in China Series C: Life Sciences, vol. 51, no. 3, pp.
205-213.
- Ghirotto, et al. (2010), Inferring Genealogical
Processes from Patterns of Bronze-Age and Modern DNA Variation in
Sardinia, Molecular Biology and Evolution, vol. 27 no. 4
(1 April 2010), pp. 875-886.
- Gonzalez-Ruiz, M.
et al. (2012), Tracing the origin of
the east-west population admixture in the Altai Region (Central Asia),
PLoS ONE, vol. 7, no. 11 (November 2012), e48904.
- Gounder Palnichamy, M. et al.
(2010), Mitochondrial
haplogroup N1a phylogeography, with implication to the origin of European
farmers, BMC Evolutionary Biology, vol. 10, no. 304.
- Guba, S. et al. (2011), HVS-I polymorphism screening
of ancient human mitochondrial DNA provides evidence for N9a discontinuity
and East Asian haplogroups in the Neolithic Hungary, Journal of
Human Genetics, (online 15 September 2011), but see Banffy 2012 and response Zeke
and Guba 2012.
- Gworys, B. et al. (2013),
Assessment of late Neolithic pastoralist's life conditions from the
Wroclaw-Jagodno site (SW Poland) on the basis of physiological stress
markers, Journal of Archaeological Science, online 13 February
2013 ahead of print.
- Haak, W. et al. (2005), Ancient
DNA from the First European Farmers in 7500-Year-Old Neolithic Sites,
Science, vol. 310, no. 5750, pp. 1016-1018.
- Haak, W. et al. (2008), Ancient
DNA, Strontium isotopes, and osteological analyses shed light on social and
kinship organization of the Later Stone Age, Proceedings of the
National Academy of Sciences of the United States of America, vol.
105, no. 47 (2008), pp. 18226-18231.
- Haak, W. et al. (2010), Ancient DNA from
European Early Neolithic Farmers Reveals Their Near Eastern Affinities,
PloS Biology, vol. 8, no.11 (November 2010): e1000536.
- Hanna, J. et al. (2012), Ancient DNA typing shows
that a bronze age mummy is a composite of different skeletons,
Journal of Archaeological Science, Available online 21 April
2012.
- Helgason, A. (2009), Sequences From First
Settlers Reveal Rapid Evolution in Icelandic mtDNA Pool, PLoS
Genetics, vol. 5, no. 1 (January 2009).
- Hervella, M. et al. (2009),
Enterramientos
en fosa en el Neolítico Antiguo en Navarra: evaluación de las evidencias
arqueológicas mediante el estudio antropológico y molecular,
Revista Espańola de Antropología Física, vol. 30, pp.
31-38.
- Hervella, M. et al (2012),
Ancient
DNA from hunter-gatherer and farmer groups from Northern Spain supports a
random dispersion model for the Neolithic expansion into Europe,
PLoS ONE, vol. 7, no. 4: e34417.
- Holck, P. (2006), The Oseberg Ship Burial,
Norway: New Thoughts On the Skeletons From the Grave Mound,
European Journal of Archaeology, vol. 9, no. 2-3, pp.
185-210.
- Hughey, J. et al. (2013), A European population in Minoan
Bronze Age Crete, Nature Communications, vol. 4, Article
number 1861.
- Hummel, S. et al. (2005), Detection
of the CCR5-D32 HIV resistance gene in Bronze Age skeletons,
Genes and Immunity, vol. 6, no. 4, pp. 371–374.
- Izagirre, N. and de la Rúa,
C. (1999), Absence
of mtDNA haplogroup V in ancient Basques, American Journal of
Human Genetics, vol. 65, pp. 199-207.
- Izagirre, N. and de la Rúa,
C. (2002), Ancient mtDNA
haplogroups: a new insight into the genetic history of European
populations, International Journal of Anthropology, vol.
17, no. 1 (Jan 2002), pp. 27-40.
- Juras, A. (2012), Ethnogenesis
of the Slavs in the light of ancient DNA analyses/Etnogeneza Słowian
w świetle badań kopalnego DNA, thesis.
- Kefi, R. et al. (2005), Diversité
mitochondriale de la population de Taforalt (12.000 ans BP - Maroc): une
approche génétique a l'étude du peuplement de l'afrique du nord [pdf],
Anthropologie, vol. 43/1, pp. 1-11.
- Keller, A. et al (2012), New
insights into the Tyrolean Iceman's origin and phenotype as inferred by
whole-genome sequencing, Nature Communications, vol. 3,
Article number 698 (Published 28 February 2012)
- Keyser-Tracqui,
C. et al. (2003), Nuclear and
mitochondrial DNA analysis of a 2,000-year-old necropolis in the Egyin Gol
Valley of Mongolia, American Journal of Human Genetics,
vol. 73, (August 2003), pp. 247-260.
- Keyser-Tracqui,
C. et al. (2006), Population
origins in Mongolia: genetic structure analysis of ancient and modern
DNA, American Journal of Physical Anthropology, vol. 131,
no. 2 (October 2006), pp. 272-81.
- Keyser, C. et al. (2008), Tracing back ancient
south Siberian population history using mitochondrial and Y-chromosome
SNPs, Forensic Science International Genetic Supplement
Series, vol. 1, pp. 343–345.
- Keyser C. et al. (2009), Ancient DNA
provides new insights into the history of south Siberian Kurgan people,
Human Genetics, vol. 126, no. 3 (September 2009), pp.
395-410.
- Kim, K. et al. (2010), A Western Eurasian Male Is
Found in 2000-Year-Old Elite Xiongnu Cemetery in Northeast Mongolia,
American Journal of Physical Anthropology, vol. 142, no. 3
(July 2010), pp. 429–440.
- Krause, J. et al. (2010), A Complete mtDNA Genome
of an Early Modern Human from Kostenki, Russia, Current
Biology (online 31 December 2009).
- Kubálek, P. et al. (2008),
Blízkovýchodní haplotyp u pohřbu mladého muze s roz těpem lebky
z raně středověkého pohřebi tě na
Tetíně (A near eastern haplotype in the burial of a young man with a
fissure in the skull from the early medieval cemetery at Tetín),
Archeologie Ve Středních Čechách, vol. 12 (2008),
pp. 645–650.
- Kulikov, E.E. (2004), Molecular
Genetic Characteristics of Medieval Populations of the Russian North,
Russian Journal of Genetics, vol. 40, no. (January, 2004), pp.
1-9.
- Lacan, M. et al. (2011), Ancient DNA reveals male
diffusion through the Neolithic Mediterranean route, Proceedings
of the National Academy of Sciences of the USA, online before print
May 31, 2011.
- Lacan, M. et al. (2011), Ancient DNA suggests the
leading role played by men in the Neolithic dissemination,
Proceedings of the National Academy of Sciences of the USA,
online before print October 31, 2011.
- Lacan, M. (2011), La
Néolithisation du bassin méditerranéen : Apports de l'ADN ancien,
thesis Université Toulouse III Paul Sabatier, presented 12 December
2011.
- Lalueza-Fox, C. et al. (2004), Unravelling
migrations in the steppe: mitochondrial DNA sequences from ancient central
Asians, Proceedings of the Royal Society B: Biological
Sciences, vol. 271, no. 1542, pp.941–947.
- Lalueza-Fox, C. et al. (2010), Genetic
analysis of the presumptive blood from Louis XVI, king of France,
FSI Genetics (online 12 October 2010 ahead of print).
- Lee, E. et al. (2012), Emerging genetic patterns of
the European neolithic: Perspectives from a late neolithic bell beaker
burial site in Germany, American Journal of Physical
Anthropology, vol. 148, no. 4, pp. 571–579.
- Lee, E. et al. (2012), Collective burials among
agro-pastoral societies in later Neolithic Germany: Perspectives from
ancient DNA, Journal of Archaeological Science, Available
online 6 September 2012.
- Liden, K. et al. (2006), Pushing
it back. Dating the CCR5–32 bp deletion to the Mesolithic in Sweden
and its implications for the Meso\Neo transition, Documenta
Praehistorica, vol. 33, pp. 29-37.
- Lillie, M. C. et al. (2012), Prehistoric
populations of Ukraine: Migration at the later Mesolithic to Neolithic
transition, in E. Kaiser, J. Burger and W. Schier (eds.), Population Dynamics
in Prehistory and Early History (2012), pp. 77-92.
- Lucotte, G et al. (2011),
Haplogroup of the Y Chromosome of Napoléon the First, Journal of
Molecular Biology Research, vol. 1, no. 1 (December 2011), pp.
12-19.
- Li, C. et al. (2010), Evidence that a West-East
admixed population lived in the Tarim Basin as early as the early Bronze
Age, BMC Biology, vol.8, no. 15.
- Maca-Meyer, N. et al.
(2004), Ancient mtDNA
analysis and the origin of the Guanches, European Journal of
Human Genetics, vol. 12, pp. 155–162.
- Malmstrom, H. (2007),
Ancient DNA as a Means to Investigate the European Neolithic. Thesis
Uppsala University.
- Malmstrom, H. et al.
(2009), Ancient DNA
Reveals Lack of Continuity between Neolithic Hunter-Gatherers and
Contemporary Scandinavians, Current Biology, vol. 19 (Nov
2009), pp. 1–5.
- Malmström, H. et al.
(2010), High frequency
of lactose intolerance in a prehistoric hunter-gatherer population in
northern Europe, BMC Evolutionary Biology, vol. 10, no.
89.
- Malmström, H. et al.
(2011), Finding the
founder of Stockholm–a kinship study based on Y-chromosomal,
autosomal and mitochondrial DNA, Annals of Anatomy - Anatomischer
Anzeiger, online 5 April 2011 ahead of print.
- Mallory, J.P. and
Mair, V.H. (2000), The Tarim Mummies: The Mystery of the First
Europeans in China.
- Matheson, C.D. et al.
(2009), Molecular
Exploration of the First-Century Tomb of the Shroud in Akeldama,
Jerusalem, PLoS One, vol. 4, no 12: e8319.
- Matney, T. et al. (2010), Understanding Early Bronze Age
social structure through mortuary remains: A pilot aDNA study from
Titriş Höyük, southeastern Turkey, International Journal of
Osteoarchaeology, (online before print 27 October 2010).
- Melchior, L. et al.
(2008), Rare mtDNA
haplogroups and genetic differences in rich and poor Danish Iron-Age
villages, American Journal of Physical Anthropology, vol.
135, pp. 206–215.
- Melchior, L. et al.
(2008), Evidence
of Authentic DNA from Danish Viking Age Skeletons Untouched by Humans for
1,000 Years, PLoS ONE, vol. 3, no. 5.
- Melchior L, et al. (2010),
Genetic Diversity
among Ancient Nordic Populations, PLoS ONE, vol. 5, no. 7,
e11898.
- Meyer, C. et al. (2008), Die
Menchlichen Skelettfunde aus der neolithischen Totenhütte von Benzingerode:
Anthropologische Untersuchungen an den Bestatturgen eines Kollektivgrabes
der Bernburger Kultur, Archäologie in Sachsen-Anhalt,
Sonderband 7 (2008), pp. 107- 143.
- Molodin, V. I. et al. (2012), Human migrations in
the southern region of the West Siberian Plain during the Bronze Age:
Archaeological, palaeogenetic and anthropological data, in E. Kaiser, J.
Burger and W. Schier (eds.), Population Dynamics in
Prehistory and Early History (2012), pp. 93-111.
- Mooder K. et al. (2005), Matrilineal
affinities and prehistoric Siberian mortuary practices: A case study from
Neolithic Lake Baikal, Journal of Archaeological Science,
vol. 32, no. 4 (April 2005), pp. 619-634.
- Nagy, D. et al. (2011), Comparison of Lactase
Persistence Polymorphism in Ancient and Present-Day Hungarian
Populations, American Journal of Physical Anthropology
(online 1 March 2011 ahead of print).
- Newton, J. (2011), Ancient Mitochondrial DNA
From Pre-historic Southeastern Europe: The Presence of East Eurasian
Haplogroups Provides Evidence of Interactions with South Siberians Across
the Central Asian Steppe Belt. Masters Theses. Paper 5.
- Nikitin, A. et al. (2010), Comprehensive
site chronology and Ancient Mitochondrial DNA analysis from Verteba Cave
– a Trypillian Culture site of Eneolithic Ukraine,
Interdisciplinaria archaeologica: Natural Sciences in
Archaeology, vol. 1, nos.1-2, pp. 9-18.
- Nikitin, A. et al. (2011), Bioarchaeological
Analysis of Bronze Age Human Remains from the Podillya Region of
Ukraine, Interdisciplinaria archaeologica: Natural Sciences in
Archaeology, vol. 2, no.1 (2011), pp. 9-14.
- Nikitin, A. (2012), Mitochondrial haplogroup C in
ancient mitochondrial DNA from Ukraine extends the presence of East
Eurasian genetic lineages in Neolithic Central and Eastern Europe,
Journal of Human Genetics, online 7 June 2012 ahead of
print.
- Núńez, C., et al. (2011), Genetic analysis of 7
medieval skeletons from the Aragonese Pyrenees, Croatian Medical
Journal, vol. 52, no. 3 (15 Jun 15 2011), pp. 336-43.
- Oliver Foix, A.; Arroyo Pardo,
E.; Fernández Domínguez, E. (2008), Secuencias genéticas matrilineales de
los restos óseos humanos de la Costa Lloguera (Castellón), Verdolay:
Revista del Museo de Murcia, vol. 11, pp. 37-48.
- Ovchinnikov, I. V. and
Goodwin, W. (2003), Ancient human DNA from Sungir?, Journal of Human
Evolution, vol. 44 (2003), pp. 389-392.
- Özbal, R., (2010), The emergrence
of Ubaid styles at Tell Kurdu: a local perspective, in R.A. Carter and G.
Philip (eds.), Beyond the Ubaid, Studies in Ancient Oriental
Civilization no. 63 (Oriental Institute of the University of Chicago 2010),
pp. 293-310, citing N. Mekel-Bobrov and B. Lahn, Ancient DNA Analysis of
Human Remains from Tell Kur-du, in R. Özbal et al, Tell Kurdu Excavations
2001, Anatolica, vol. 30 (2004), pp. 72-73.
- Petkovski, E. et al.
(2006), MALDI-TOF MS
analysis of Y-SNPs in ancient samples, International Congress
Series, vol. 1288, (April 2006), pp. 25-27.
- Pilipenko, A. S. et al.
(2010), Mitochondrial
DNA studies of the Pazyryk people (4th to 3rd centuries BC) from
northwestern Mongolia, Archaeological and Anthropological
Sciences, vol. 2, no. 4 (December 2010), pp. 231-236.
- Pilipenko, A. S. et al. (2011), Mitochondrial
DNA of a Late Neolithic woman from Kaminnaya Cave (Gorny Altai),
Вавиловский
журнал
генетики и
селекции, vol. 15,
no. 4, pp. 633-43.
- Plantinga, T. S. et al
(2012), Low prevalence of lactase persistence in Neolithic South-West
Europe, European Journal of Human Genetics, advance online
publication 11 January 2012.
- Ricaut, F.X, et al. (2004), Genetic analysis of a
Scytho-Siberian skeleton and its implications for ancient Central Asian
migrations, Human Biology, vol. 76, no. 1 (Feb 2004),
pp.109-25.
- Ricaut, F.X, et al. (2004), Genetic analysis of
human remains found in two eighteenth century Yakut graves at
At-Dabaan, International Journal of Legal Medicine, vol.
118, no. 1 (Feb 2004), pp. 24-31.
- Ricaut, F.X, et al. (2004), Genetic analysis and
ethnic affinities from two Scytho-Siberian skeletons, American
Journal of Physical Anthropology, vol. 123, no. 4 (Apr 2004), pp.
351-60.
- Ricaut, F.X, et al. (2010), Comparison between
morphological and genetic data to estimate biological relationship: The
case of the Egyin Gol necropolis (Mongolia), American Journal of
Physical Anthropology, vol. 143, no. 3 (November 2010).
- Rollo, F., et al. (2006), Fine
Characterization of the Iceman’s mtDNA Haplogroup, American
Journal of Physical Anthropology, vol. 130, no. (2006), pp. 557-
564.
- Rogaev, (2009), Genomic identification in
the historical case of the Nicholas II royal family, Proceedings
of the National Academy of Sciences of the United States of America,
vol. 106, no 13 (March 2009), pp. 5258–5263.
- Rudbeck, L., et al. (2005), mtDNA
analysis of human remains from an early Danish Christian cemetery,
American Journal of Physical Anthropology, vol. 128, pp.
424–429.
- Salamon, M. et al. (2010),
Ancient mtDNA sequences and radiocarbon dating of human bones from the
Chalcolithic caves of Wadi El‐Makkukh, Mediterranean Archaeology and
Archaeometry, vol. 10, no. 2, pp. 1‐14.
- Sampietro, M. L. et al.
(2005), The genetics
of the pre-Roman Iberian Peninsula: a mtDNA study of ancient Iberians,
Annals of Human Genetics, vol. 69, pt. 5 (Sep 2005), pp.
535-48.
- Sampietro, M. et al.
(2007), Palaeogenetic
evidence supports a dual model of Neolithic spreading into Europe,
Proceedings of the Royal Society B: Biological Sciences, vol.
274, pp. 2161–2167.
- Sánchez-Quinto,
F. et al. (2012), Genomic affinities of
two 7,000-year-old Iberian hunter-gatherers, Current
Biology, Available online 28 June 2012.
- Schilz, F. (2006), Molekulargenetische
Verwandtschaftsanalysen am prähistorischen Skelettkollektiv der
Lichtensteinhöhle, Dissertation, Göttingen. Summarised in English, with
Y-DNA haplogroups assigned: D. Schweitzer, Lichtenstein
Cave Data Analysis (2008).
- Schuenemann, V.J.
(2011), Targeted
enrichment of ancient pathogens yielding the pPCP1 plasmid of Yersinia
pestis from victims of the Black Death, Proceedings of the
National Academy of Sciences of the United States of America, online
August 29, 2011 ahead of print.
- Simón, M. et al. (2011), The presence of nuclear
families in prehistoric collective burials revisited: the Bronze Age burial
of Montanissell Cave (Spain) in the light of aDNA, American
Journal of Physical Anthropology, online 30 September 2011, ahead of
print.
- Skoglund, P. et al. (2012),
Origins and genetic
legacy of Neolithic farmers and hunter-gatherers in Europe,
Science, vol. 336, no. 6080 (April 2012), pp. 466-469.
- Sykes, B.C. (2000), Report on DNA
recovered from the Red Lady of Paviland. In: Aldhouse-Green, S. (ed.),
Paviland Cave and the
Red Lady
: A Definitive Report,
pp. 75–77.
- Tomczyk, J. et al. (2010), Anthropological Analysis of the
Osteological Material from an Ancient Tomb (Early Bronze Age) from the
Middle Euphrates Valley, Terqa (Syria), International Journal of
Osteoarchaeology, published online ahead of print.
- Tömöry, G. et al. (2007), Comparison of maternal
lineage and biogeographic analyses of ancient and modern Hungarian
populations, American Journal of Physical Anthropology,
vol. 34, no. 3, pp. 354-68.
- Töpf, A.L. et al. (2006), Tracing
the phylogeography of human populations in Britain based on 4th–11th
century mtDNA genotypes, Molecular Biology and Evolution,
vol. 23, no. 1, pp. 152-161.
- Töpf, A.L. et al. (2007), Ancient
human mtDNA genotypes from England reveal lost variation over the last
millennium, Biology Letters, vol. 3, no. 5, pp.
550–553.
- Vanek, D. (2009), Kinship
and Y-Chromosome Analysis of 7th Century Human Remains [pdf]: Novel DNA
Extraction and Typing Procedure for Ancient Material, Croatian
Medical Journal, vol. 50, pp. 286-95.
- Vernesi, C. et al. (2001), Genetic
characterization of the body attributed to the evangelist Luke,
Proceedings of the National Academy of Sciences of the United States
of America, vol. 98, no. 23 (Nov 2001), pp. 13460-13463. See Bandelt
2005 for query on authenticity.
- Vernesi, C. (2004), The
Etruscans: A Population-Genetic Study, American Journal of Human
Genetics, vol. 74, pp. 694–704. Data not included in the table, because of difficulty assigning
haplogroups, and technical criticisms - see Bandelt 2005.
- Wang, H. et al. (2012), Genetic
characteristics of an ancient nomadic group in Northern China,
Human Biology, vol. 84, no. 4, article 3.
- Xie, C.Z., et al. (2007), Evidence
of ancient DNA reveals the first European lineage in Iron Age Central
China, Proceedings of the Royal Society: Biological
Sciences, vol. 274, no. 1618 (Jul 2007), pp. 1597-601.
- Xie, C.Z., et al. (2007), Mitochondrial
DNA analysis of ancient Sampula population in Xinjiang, Progress
in Natural Science, vol. 17, no. 8 (Aug 2007), pp. 927-933(7).
- Zawicki, P. and Witas, H.W.
(2008), HIV-1
protecting CCR5-Δ32 allele in medieval Poland, Infection,
Genetics and Evolution, vol. 8, no. 2, (March 2008), pp. 146-151.
- Zeke, T. and Guba, Z. (2012), Response to Data on Hungarian
Early Neolithic graves by Banffy et al., Journal of Human
Genetics, (advance online publication, 7 June 2012).
- Zhang, F. et al. (2010), Prehistorical East–West
Admixture of Maternal Lineages in a 2,500-Year-Old Population in
Xinjiang, American Journal of Physical Anthropology early
online.
- Zvelebil, M. and Pettitt, P.
(2012), Biosocial
archaeology of the Early Neolithic: Synthetic analyses of a human skeletal
population from the LBK cemetery of Vedrovice, Czech Republic,
Journal of Anthropological Archaeology, available online 5
March 2012 ahead of print.