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1.
Nature ; 631(8022): 819-825, 2024 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-38843826

RESUMEN

Horses revolutionized human history with fast mobility1. However, the timeline between their domestication and their widespread integration as a means of transport remains contentious2-4. Here we assemble a collection of 475 ancient horse genomes to assess the period when these animals were first reshaped by human agency in Eurasia. We find that reproductive control of the modern domestic lineage emerged around 2200 BCE, through close-kin mating and shortened generation times. Reproductive control emerged following a severe domestication bottleneck starting no earlier than approximately 2700 BCE, and coincided with a sudden expansion across Eurasia that ultimately resulted in the replacement of nearly every local horse lineage. This expansion marked the rise of widespread horse-based mobility in human history, which refutes the commonly held narrative of large horse herds accompanying the massive migration of steppe peoples across Europe around 3000 BCE and earlier3,5. Finally, we detect significantly shortened generation times at Botai around 3500 BCE, a settlement from central Asia associated with corrals and a subsistence economy centred on horses6,7. This supports local horse husbandry before the rise of modern domestic bloodlines.


Asunto(s)
Crianza de Animales Domésticos , Domesticación , Caballos , Transportes , Animales , Femenino , Masculino , Crianza de Animales Domésticos/historia , Asia , Europa (Continente) , Genoma/genética , Historia Antigua , Caballos/clasificación , Caballos/genética , Reproducción , Transportes/historia , Transportes/métodos , Filogenia
2.
PLoS One ; 19(5): e0302646, 2024.
Artículo en Inglés | MEDLINE | ID: mdl-38709766

RESUMEN

The analysis of the DNA entrapped in ancient shells of molluscs has the potential to shed light on the evolution and ecology of this very diverse phylum. Ancient genomics could help reconstruct the responses of molluscs to past climate change, pollution, and human subsistence practices at unprecedented temporal resolutions. Applications are however still in their infancy, partly due to our limited knowledge of DNA preservation in calcium carbonate shells and the need for optimized methods for responsible genomic data generation. To improve ancient shell genomic analyses, we applied high-throughput DNA sequencing to 27 Mytilus mussel shells dated to ~111-6500 years Before Present, and investigated the impact, on DNA recovery, of shell imaging, DNA extraction protocols and shell sub-sampling strategies. First, we detected no quantitative or qualitative deleterious effect of micro-computed tomography for recording shell 3D morphological information prior to sub-sampling. Then, we showed that double-digestion and bleach treatment of shell powder prior to silica-based DNA extraction improves shell DNA recovery, also suggesting that DNA is protected in preservation niches within ancient shells. Finally, all layers that compose Mytilus shells, i.e., the nacreous (aragonite) and prismatic (calcite) carbonate layers, with or without the outer organic layer (periostracum) proved to be valuable DNA reservoirs, with aragonite appearing as the best substrate for genomic analyses. Our work contributes to the understanding of long-term molecular preservation in biominerals and we anticipate that resulting recommendations will be helpful for future efficient and responsible genomic analyses of ancient mollusc shells.


Asunto(s)
Exoesqueleto , Genómica , Moluscos , Animales , Genómica/métodos , Moluscos/genética , Microtomografía por Rayos X , Carbonato de Calcio , Secuenciación de Nucleótidos de Alto Rendimiento , Fósiles
3.
Nature ; 625(7994): 329-337, 2024 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-38200294

RESUMEN

Major migration events in Holocene Eurasia have been characterized genetically at broad regional scales1-4. However, insights into the population dynamics in the contact zones are hampered by a lack of ancient genomic data sampled at high spatiotemporal resolution5-7. Here, to address this, we analysed shotgun-sequenced genomes from 100 skeletons spanning 7,300 years of the Mesolithic period, Neolithic period and Early Bronze Age in Denmark and integrated these with proxies for diet (13C and 15N content), mobility (87Sr/86Sr ratio) and vegetation cover (pollen). We observe that Danish Mesolithic individuals of the Maglemose, Kongemose and Ertebølle cultures form a distinct genetic cluster related to other Western European hunter-gatherers. Despite shifts in material culture they displayed genetic homogeneity from around 10,500 to 5,900 calibrated years before present, when Neolithic farmers with Anatolian-derived ancestry arrived. Although the Neolithic transition was delayed by more than a millennium relative to Central Europe, it was very abrupt and resulted in a population turnover with limited genetic contribution from local hunter-gatherers. The succeeding Neolithic population, associated with the Funnel Beaker culture, persisted for only about 1,000 years before immigrants with eastern Steppe-derived ancestry arrived. This second and equally rapid population replacement gave rise to the Single Grave culture with an ancestry profile more similar to present-day Danes. In our multiproxy dataset, these major demographic events are manifested as parallel shifts in genotype, phenotype, diet and land use.


Asunto(s)
Genoma Humano , Genómica , Migración Humana , Pueblos Nórdicos y Escandinávicos , Humanos , Dinamarca/etnología , Emigrantes e Inmigrantes/historia , Genotipo , Pueblos Nórdicos y Escandinávicos/genética , Pueblos Nórdicos y Escandinávicos/historia , Migración Humana/historia , Genoma Humano/genética , Historia Antigua , Polen , Dieta/historia , Caza/historia , Agricultores/historia , Cultura , Fenotipo , Conjuntos de Datos como Asunto
4.
Nature ; 625(7994): 321-328, 2024 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-38200296

RESUMEN

Multiple sclerosis (MS) is a neuro-inflammatory and neurodegenerative disease that is most prevalent in Northern Europe. Although it is known that inherited risk for MS is located within or in close proximity to immune-related genes, it is unknown when, where and how this genetic risk originated1. Here, by using a large ancient genome dataset from the Mesolithic period to the Bronze Age2, along with new Medieval and post-Medieval genomes, we show that the genetic risk for MS rose among pastoralists from the Pontic steppe and was brought into Europe by the Yamnaya-related migration approximately 5,000 years ago. We further show that these MS-associated immunogenetic variants underwent positive selection both within the steppe population and later in Europe, probably driven by pathogenic challenges coinciding with changes in diet, lifestyle and population density. This study highlights the critical importance of the Neolithic period and Bronze Age as determinants of modern immune responses and their subsequent effect on the risk of developing MS in a changing environment.


Asunto(s)
Predisposición Genética a la Enfermedad , Genoma Humano , Pradera , Esclerosis Múltiple , Humanos , Conjuntos de Datos como Asunto , Dieta/etnología , Dieta/historia , Europa (Continente)/etnología , Predisposición Genética a la Enfermedad/historia , Genética Médica , Historia del Siglo XV , Historia Antigua , Historia Medieval , Migración Humana/historia , Estilo de Vida/etnología , Estilo de Vida/historia , Esclerosis Múltiple/genética , Esclerosis Múltiple/historia , Esclerosis Múltiple/inmunología , Enfermedades Neurodegenerativas/genética , Enfermedades Neurodegenerativas/historia , Enfermedades Neurodegenerativas/inmunología , Densidad de Población
5.
Nature ; 598(7882): 634-640, 2021 10.
Artículo en Inglés | MEDLINE | ID: mdl-34671162

RESUMEN

Domestication of horses fundamentally transformed long-range mobility and warfare1. However, modern domesticated breeds do not descend from the earliest domestic horse lineage associated with archaeological evidence of bridling, milking and corralling2-4 at Botai, Central Asia around 3500 BC3. Other longstanding candidate regions for horse domestication, such as Iberia5 and Anatolia6, have also recently been challenged. Thus, the genetic, geographic and temporal origins of modern domestic horses have remained unknown. Here we pinpoint the Western Eurasian steppes, especially the lower Volga-Don region, as the homeland of modern domestic horses. Furthermore, we map the population changes accompanying domestication from 273 ancient horse genomes. This reveals that modern domestic horses ultimately replaced almost all other local populations as they expanded rapidly across Eurasia from about 2000 BC, synchronously with equestrian material culture, including Sintashta spoke-wheeled chariots. We find that equestrianism involved strong selection for critical locomotor and behavioural adaptations at the GSDMC and ZFPM1 genes. Our results reject the commonly held association7 between horseback riding and the massive expansion of Yamnaya steppe pastoralists into Europe around 3000 BC8,9 driving the spread of Indo-European languages10. This contrasts with the scenario in Asia where Indo-Iranian languages, chariots and horses spread together, following the early second millennium BC Sintashta culture11,12.


Asunto(s)
Domesticación , Genética de Población , Caballos , Animales , Arqueología , Asia , ADN Antiguo , Europa (Continente) , Genoma , Pradera , Caballos/genética , Filogenia
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