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Ancient DNA from the eastern Maghreb (Tunisia and Algeria) dating between 15,000 and 6,000 years ago shows that this region was far less affected by external gene flow than the rest of the Neolithic Mediterranean, including not only Europe but also the western Maghreb (Morocco).

Ancient DNA reveals how the explosive expansion of Yamnaya steppe pastoralists began with a small community north of the Black Sea speaking ancestral Indo-European, and detects genetic links with Anatolian speakers, stemming from a common Indo-Anatolian homeland in the North Caucasus–lower Volga region.

Whole-genome sequencing analysis of 81 prehistoric individuals reveals how the genetic makeup of people from the North Pontic region was influenced by waves of migration during the Eneolithic period and Early Bronze Age.

The genetic prehistory of central America has not been well explored. Here, the authors find evidence from ancient DNA from twenty individuals who lived in Belize 9,600 to 3,700 years ago of a migration from the south that coincided with the first evidence for forest clearing and the spread of maize horticulture.

Gelabert et al. examine genomic and archaeological data from Europe’s earliest farming communities in Central Europe (5500–5000 bce). They find differentiated genetic networks but no evidence of unequal access to resources linked to sex or kin.

This protocol update describes silica-based approaches for purification of DNA from ancient bone, tooth and sediment samples. The optimized buffers yield short DNA fragments compatible with high-throughput sequencing library preparation.

Christopher Haiman, Bogdan Pasaniuc, David Reich and colleagues report a major role for low-frequency variation in the risk for prostate cancer. They show that alleles with >1% minor allele frequency contribute an order of magnitude more to risk for prostate cancer than these alleles do to overall genetic variation.

Ancient DNA from Soqotra, an island off the coast of Yemen, evidences a population history differing from other areas of the Arabian Peninsula and suggests there has not been complete population replacement throughout the region between the Pleistocene and Holocene.

Genome-wide analyses of ancient DNA from individuals from California and Mexico shed light on the spread of Mexican ancestry to California and how it correlates with linguistic flow.

Genome-wide ancient DNA data from individuals from the Middle Bronze Age to Iron Age documents large-scale movement of people from the European continent between 1300 and 800 bc that was probably responsible for spreading early Celtic languages to Britain.

Analysis of ancient human DNA from the Swahili coast reveals that predominantly African female ancestors and Asian male ancestors formed families after around ad 1000 and lived in elite communities in coastal stone towns.

Archaeogenetic study of ancient DNA from medieval northwestern Europeans reveals substantial increase of continental northern European ancestry in Britain, suggesting mass migration across the North Sea during the Early Middle Ages.

Archaeological and ancient DNA analyses of 35 individuals entombed at Hazleton North long cairn approximately 5,700 years ago are used to reconstruct kinship practices in Early Neolithic Britain.

DNA analysis of 6 individuals from eastern and south-central Africa spanning the past approximately 18,000 years, and of 28 previously published ancient individuals, provides genetic evidence supporting hypotheses of increasing regionalization at the end of the Pleistocene.

Genome-wide data from 166 East Asian individuals dating to between 6000 bc and ad 1000 and from 46 present-day groups provide insights into the histories of mixture and migration of human populations in East Asia.

The history of human populations in the islands of the central and western Mediterranean is poorly understood. Here, the authors generate ancient-DNA data from the Balearic Islands, Sicily and Sardinia, and estimate the level and timing of steppe pastoralist, Iranian and North African ancestries in these populations.

How Indigenous populations in the southern tip of South America have changed over time has been unclear. Here the authors generate genome-wide data for 20 ancient individuals and examine how past migrations and admixture events correlate to geography and shifts in the archaeological record.

Ancient DNA reveals genetic differences between stone-tool users and people associated with ceramic technology in the Caribbean and provides substantially lower estimates of population sizes in the region before European contact.

DNA analyses of Mesolithic and Neolithic individuals indicates the British Neolithic transition was mediated by incoming continental farmers, with little gene flow from local hunter-gatherers.

The Caucasus mountain range has impacted on the culture and genetics of the wider region. Here, the authors generate genome-wide SNP data for 45 Eneolithic and Bronze Age individuals across the Caucasus, and find distinct genetic clusters between mountain and steppe zones as well as occasional gene-flow.

Genome-wide ancestry profiles of four individuals, dating to 8,000 and 3,000 years before present, from the archaeological site of Shum Laka (Cameroon) shed light on the deep population history of sub-Saharan Africa.

Remains of several hundred humans are scattered around Roopkund Lake, situated over 5,000 meters above sea level in the Himalayan Mountains. Here the authors analyze genome-wide data from 38 skeletons and find 3 clusters with different ancestries and dates, showing the people were desposited in multiple catastrophic events.

Genome-wide data from 400 individuals indicate that the initial spread of the Beaker archaeological complex between Iberia and central Europe was propelled by cultural diffusion, but that its spread into Britain involved a large-scale migration that permanently replaced about ninety per cent of the ancestry in the previously resident population.

Analysis of ancient genomic data of 51 humans from Eurasia dating from 45,000 to 7,000 years ago provides insight into the population history of pre-Neolithic Europe and support for recurring migration and population turnover in Europe during this period.

Deep whole-genome sequencing of 300 individuals from 142 diverse populations provides insights into key population genetic parameters, shows that all modern human ancestry outside of Africa including in Australasians is consistent with descending from a single founding population, and suggests a higher rate of accumulation of mutations in non-Africans compared to Africans since divergence.

The Scythian culture was widespread throughout the Eurasian Steppe during the 1^stmillennium BCE. This study provides genetic evidence for two independent origins for the Scythians in the eastern and western steppe with varying proportions of Yamnaya and East Asian ancestry, and gene flow among them.

Little is known about the genetic landscape of people living in the Nile region prior to the Islamic migrations of the late 1st millennium CE. Here, the authors report genome-wide data for 66 ancient individuals to investigate the genetic ancestry of a Christian Period group from Kulubnarti.

Genome-wide ancient DNA data from 225 individuals who lived in southeastern Europe between 12000 and 500 bc reveals that the region acted as a genetic crossroads before and after the arrival of farming.

In ancient cultures without a writing system, it is difficult to infer the basis of status and rank. Here the authors analyse ancient DNA from nine presumed elite individuals buried successively over a 300-year period at Chaco Canyon, and show evidence of matrilineal relationships.

Analysis of DNA from ancient individuals of the Near East documents the extreme substructure among the populations which transitioned to farming, a structure that was maintained throughout the transition from hunter–gatherer to farmer but that broke down over the next five thousand years.

The first genome-wide scan for selection using ancient DNA, based on data from 230 West Eurasians dating between to 6500 and 300 bc and including new data from 163 individuals among which are 26 Neolithic Anatolians, provides a direct view of selection on loci associated with diet, pigmentation and immunity.

The Late Chalcolithic material culture in the southern Levant has unique attributes that suggest spread of people or culture. Here, the authors use genome-wide ancient DNA data from 22 individuals from a Chalcolithic site and show evidence of complex population movements and turnovers.

New genome-wide data for ancient, Bronze Age individuals, including Minoans, Mycenaeans, and southwestern Anatolians, show that Minoans and Mycenaeans were genetically very similar yet distinct, supporting the idea of continuity but not isolation in the history of populations of the Aegean.

A sequencing study comparing ancient and contemporary genomes reveals that most present-day Europeans derive from at least three highly differentiated populations: west European hunter-gatherers, ancient north Eurasians (related to Upper Palaeolithic Siberians) and early European farmers of mainly Near Eastern origin.

DNA analysis of ancient individuals and modern populations suggests that the population history of North America can be explained by the admixture of two ancestral lineages—Palaeo-Eskimos and First Peoples.

In European Neolithic populations, the arrival of farmers prompted admixture with local hunter-gatherers over many centuries, resulting in distinct signatures in each region due to a complex series of interactions.

Analysis of DNA from a 37,000–42,000-year-old modern human from Romania reveals that 6–9% of the genome is derived from Neanderthals, with the individual having a Neanderthal ancestor as recently as four to six generations back.

Kevin Campbell and colleagues isolate DNA from extinct woolly mammoths and resurrect mammoth hemoglobin. The authors identify three amino acid substitutions that reduce the energetic requirements of heme deoxygenation, which may have played a role in the adaptation of the woolly mammoth from tropical to arctic environments.

A genome-wide analysis of 69 ancient Europeans reveals the history of population migrations around the time that Indo-European languages arose in Europe, when there was a large migration into Europe from the Eurasian steppe in the east (providing a genetic ancestry still present in Europeans today); these findings support a ‘steppe origin’ hypothesis for how some Indo-European languages arose.

Analysis of ancient DNA from four individuals who lived in Vanuatu and Tonga between 2,300 and 3,100 years ago suggests that the Papuan ancestry seen in present-day occupants of this region was introduced at a later date.

Bogdan Pasaniuc, David Reich, Alkes Price and colleagues report analyses considering the potential of genome-wide association studies (GWAS) based on extremely low-coverage sequence data sets combined with imputation using data sets from the 1000 Genomes Project. They show with simulations and real exome-sequencing data that low-coverage sequencing can increase power for GWAS relative to genotyping arrays.