Читаем Краткая история всех, кто когда-либо жил полностью

Krause J., Lalueza-Fox C., Orlando L., et al. The derived FOXP2 variant of modern humans was shared with Neandertals // Current Biology. 17: 21 (2007). Р. 1908–12.

Hurst J. A., et al. An extended Family with a Dominantly Inherited Speech Disorder // Developmental Medicine Child Neurology. 32: 4 (1990). Р. 352–5.

Kuhlwilm M., et al. Ancient gene flow from early modern humans into Eastern Neanderthals // Nature. Vol. 530 (2016). Р. 429–33.

Об обонянии, коже и рыжих волосах

Mainland J. D., et al. The missense of smell: functional variability in the human odorant receptor repertoire // Nature Neuroscience. Vol. 17 (2014). Р. 114.

Lalueza-Fox C., et al. A Melanocortin 1 Receptor Allele Suggests Varying Pigmentation Among Neanderthals // Science. Vol. 318: 5855 (2007). Р. 1453–5.

Hoover K. C., et al. Global Survey of Variation in a Human Olfactory Receptor Gene Reveals Signatures of Non-Neutral Evolution // Chemical Senses. 40 (2015). Р. 481–8.

О последствиях интрогрессии генов неандертальцев

Juric I., Aeschbacher S., Coop G. The Strength of Selection Against Neanderthal Introgression // bioRxiv, 30 October 2015.

Harris K., Nielsen R. The Genetic Cost of Neanderthal Introgression // bioRxiv, 29 March 2016.

О денисовском человеке

Krause J., Fu Q., Good J. M., et al. The complete mitochondrial DNA genome of an unknown hominin from southern Siberia // Nature. Vol. 464 (2010). Р. 894–7.

Sawyer S., et al. Nuclear and mitochondrial DNA sequences from two Denisovan individuals // PNAS. 112 (2015). Р. 15696–700.

Reich D., Richard E.G., et al. Genetic history of an archaic hominin group from Denisova Cave in Siberia // Nature. Vol. 468 (2010). Р.1053–60.

Reich D., et al. Denisova Admixture and the First Modern Human Dispersals into Southeast Asia and Oceania // The American Journal of Human Genetics. Vol. 89 (2011). Р. 516–28.

Huerta-Sanchez E., et al., Altitude adaptation in Tibetans caused by introgression of Denisovan-like DNA // Nature. Vol. 512 (2014). Р. 194–7.

Curnoe D., et al. A Hominin Femur with Archaic Affinities from the Late Pleistocene of Southwest China // PLOS One. 10: 12 (2015).

Birney E., Pritchard J. K. Archaic humans: Four makes a party // Nature. Vol. 505 (2014). Р. 32–4.

Hardy K., et al. The Importance of Dietary Carbohydrate in Human Evolution // The Quarterly Review of Biology. Vol. 90: 3 (2015). Р. 251.

Itan Y., et al. The Origins of Lactase Persistence in Europe // PLOS Computational Biology. 5: 8 (2009).

Shennan S., et al. Regional population collapse followed initial agriculture booms in mid-Holocene Europe // Nature Communications. Vol. 4 (2013).

Lazaridis I., et al. Ancient human genomes suggest three ancestral populations for present-day Europeans // Nature. Vol. 513 (2014). Р. 409–13.

Seguin-Orlando A., et al. Genomic structure in Europeans dating back at least 36,200 years // Science. Vol. 346: 6213 (2014). Р. 1113.

Fu Q., et al. Genome sequence of a 45,000-year-old modern human from western Siberia // Nature. Vol. 514 (2014). Р. 445–50.

Helgason А., et al., Sequences From First Settlers Reveal Rapid Evolution in Icelandic mtDNA Pool // PLOS Genetics. 5: 1 (2009).

Benedictow O. J. The Black Death 1346–1353: The Complete History. – Boydell Press, 2004.

Procopius. Secret History: History of the Wars – Vol. II. Р. xxii – xxxiii: (transl. by Richard Atwater; Chicago: P. Covici, 1927; New York: Covici Friede, 1927; reprinted Ann Arbor, MI: University of Michigan Press, 1961).

Adhikari K., et al. A genome-wide association scan in admixed Latin Americans identifies facial and scalp hair features // Nature Communications. Vol. 7 (2016).

Leslie S., et al. The fine-scale genetic structure of the British population // Nature. Vol. 519 (2004). Р. 309.

О Карле Великом

Rohde Douglas L.T., Olson S., Chang J. T. Modelling the recent common ancestry of all living humans // Nature. Vol. 431 (2004). Р. 562–6.

Chang J. Recent common ancestors of all present-day individuals // Advances in Applied Probability. 31 (1999). Р. 1002–26.