0000000000299631

AUTHOR

Martina Unterländer

showing 6 related works from this author

Screening archaeological bone for palaeogenetic and palaeoproteomic studies.

2020

Funder: FP7 Ideas: European Research Council; funder-id: http://dx.doi.org/10.13039/100011199; Grant(s): 295729

1100Proteomics1300Social SciencesMarine and Aquatic Sciences01 natural sciencesBiochemistrySpectroscopy Fourier Transform InfraredLimnologyScreening method0303 health sciencesMultidisciplinaryAncient DNAChemistryFossilsQRFOS: Social sciencesNucleic acidsArchaeologyAttenuated total reflectionMedicinePhysical AnthropologyOrganic contentResearch Article1000010506 paleontologyScienceInfrared spectroscopyPaleoenvironmentsBone and Bones03 medical and health sciencesPaleoanthropologyGeneticsAnimalsHumansPaleolimnologyDNA AncientPaleozoology030304 developmental biology0105 earth and related environmental sciencesEcology and Environmental SciencesBiology and Life SciencesProteinsPaleontologyDNAArchaeologyEarth sciencesAncient DNAAnthropologyPaleobiologyPaleogeneticsCollagensPloS one
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The genomic history of the Aegean palatial civilizations

2021

Summary The Cycladic, the Minoan, and the Helladic (Mycenaean) cultures define the Bronze Age (BA) of Greece. Urbanism, complex social structures, craft and agricultural specialization, and the earliest forms of writing characterize this iconic period. We sequenced six Early to Middle BA whole genomes, along with 11 mitochondrial genomes, sampled from the three BA cultures of the Aegean Sea. The Early BA (EBA) genomes are homogeneous and derive most of their ancestry from Neolithic Aegeans, contrary to earlier hypotheses that the Neolithic-EBA cultural transition was due to massive population turnover. EBA Aegeans were shaped by relatively small-scale migration from East of the Aegean, as e…

Bronze AgePopulation turnoverHuman MigrationAnatolia; Bronze Age; Cycladic civilization; Greece; Helladic civilization; Minoan civilization; Mycenean civilization; ancient DNA; paleogenomics; population geneticsSINGLE-NUCLEOTIDE POLYMORPHISMPopulation geneticsMinoan civilizationCivilizationBiologyAncient historyHIRISPLEX SYSTEMArticleGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciences0302 clinical medicineBronze AgeSKIN COLOR PREDICTIONHumansAnatoliaPHYLOGENETIC ANALYSISBRONZE-AGEPOPULATION-STRUCTUREDNA AncientINDO-EUROPEAN LANGUAGESancient DNALACTASE-PERSISTENCE PHENOTYPEHistory AncientMinoan civilization030304 developmental biologySEQUENCE ALIGNMENTpopulation geneticCycladic civilization0303 health sciencesGreeceGenome Humanpopulation geneticsHelladic civilizationGenòmicapaleogenomicsAncient DNAHomogeneousGenome MitochondrialGreece AncientCivilitzacions palacials de l'EgeuMycenean civilizationLACTOSE DIGESTION030217 neurology & neurosurgeryGenètica
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Early farmers from across Europe directly descended from Neolithic Aegeans

2015

WOS: 000378272400038

0301 basic medicineMediterranean climatePopulation03 medical and health sciences0302 clinical medicineGenetic similarityddc:590Humans0601 history and archaeologyAnatoliaNeolithiceducationQH426HoloceneMesolithic030304 developmental biology2. Zero hungerPrincipal Component Analysis0303 health scienceseducation.field_of_studyMultidisciplinary060102 archaeologyGreeceMediterranean RegionEcologybusiness.industrySedentismAgriculture06 humanities and the artsBiological SciencesCCCBEuropepaleogenomicsGenetics Population030104 developmental biologyGeographyAncient DNAPaleogenomicsAgricultureAnthropologyBiological dispersalbusiness030217 neurology & neurosurgeryMesolithic
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Ancient European dog genomes reveal continuity since the Early Neolithic

2017

Europe has played a major role in dog evolution, harbouring the oldest uncontested Palaeolithic remains and having been the centre of modern dog breed creation. Here we sequence the genomes of an Early and End Neolithic dog from Germany, including a sample associated with an early European farming community. Both dogs demonstrate continuity with each other and predominantly share ancestry with modern European dogs, contradicting a previously suggested Late Neolithic population replacement. We find no genetic evidence to support the recent hypothesis proposing dual origins of dog domestication. By calibrating the mutation rate using our oldest dog, we narrow the timing of dog domestication t…

0301 basic medicineMitochondrial DNAGenome evolution[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and PrehistoryScienceGeneral Physics and AstronomyPopulation geneticsPopulation ReplacementBiologyDNA MitochondrialGenomeArticleGeneral Biochemistry Genetics and Molecular BiologyDomesticationPaleontology03 medical and health sciencesDogs0302 clinical medicineAnimalsDomesticationComputingMilieux_MISCELLANEOUS030304 developmental biology0303 health sciencesGenomeMultidisciplinaryQGenetic VariationGeneral Chemistry[SHS.ANTHRO-SE]Humanities and Social Sciences/Social Anthropology and ethnologyBiological EvolutionEastern europeanPhylogeography030104 developmental biologyGeographyEvolutionary biology[SHS.ENVIR]Humanities and Social Sciences/Environmental studiesPeriod (geology)Adaptation030217 neurology & neurosurgeryNature Communications
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Direct evidence for positive selection of skin, hair, and eye pigmentation in Europeans during the last 5,000 y

2014

Significance Eye, hair, and skin pigmentation are highly variable in humans, particularly in western Eurasian populations. This diversity may be explained by population history, the relaxation of selection pressures, or positive selection. To investigate whether positive natural selection is responsible for depigmentation within Europe, we estimated the strength of selection acting on three genes known to have significant effects on human pigmentation. In a direct approach, these estimates were made using ancient DNA from prehistoric Europeans and computer simulations. This allowed us to determine selection coefficients for a precisely bounded period in the deep past. Our results indicate t…

GeneticsSLC45A2Time FactorsMultidisciplinaryNatural selectionEye ColorbiologyMembrane Transport ProteinsSkin PigmentationBiological SciencesPolymorphism Single NucleotideEye pigmentationWhite PeopleEastern europeanGene FrequencyAntigens NeoplasmEye colorbiology.proteinHumansSelection GeneticAlleleHair ColorAllele frequencyAllelesSelection (genetic algorithm)Proceedings of the National Academy of Sciences of the U.S.A.
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Ancestry and demography and descendants of Iron Age nomads of the Eurasian Steppe

2017

During the 1st millennium before the Common Era (BCE), nomadic tribes associated with the Iron Age Scythian culture spread over the Eurasian Steppe, covering a territory of more than 3,500 km in breadth. To understand the demographic processes behind the spread of the Scythian culture, we analysed genomic data from eight individuals and a mitochondrial dataset of 96 individuals originating in eastern and western parts of the Eurasian Steppe. Genomic inference reveals that Scythians in the east and the west of the steppe zone can best be described as a mixture of Yamnaya-related ancestry and an East Asian component. Demographic modelling suggests independent origins for eastern and western g…

Gene FlowMale0301 basic medicineSteppePopulation geneticsHuman MigrationGenomic dataBiological anthropologyScience[SHS.ANTHRO-BIO]Humanities and Social Sciences/Biological anthropologyDatasets as TopicGeneral Physics and AstronomyDNA MitochondrialWhite PeopleArticleGeneral Biochemistry Genetics and Molecular BiologyRussia03 medical and health sciencesAsian Peopleddc:590HumansEast AsiaHistory AncientTransients and MigrantsModels StatisticalMultidisciplinarygeography.geographical_feature_categoryHuman migrationbusiness.industryQGenetic VariationGeneral ChemistryGrasslandKazakhstan030104 developmental biologyGeographyIron AgeEthnologybusiness
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