A unified genealogy of modern and ancient genomesAnthony Wilder Wohns1,2,*, Yan Wong1, Ben Jeffery1, Ali Akbari2,3,6, Swapan Mallick2,4, Ron Pinhasi5, Nick Patterson2,3,4,6, David Reich2,3,4,6, Jerome Kelleher1,+, and Gil McVean1
Science • 25 Feb 2022 • Vol 375, Issue 6583https://doi.org/10.1126/science.abi8264Preprint:
https://www.biorxiv.org/content/10.1101/2021.02.16.431497v2.full.pdfПопулярно здесь:
https://www.dailymail.co.uk/sciencetech/article-10547881/Scientists-create-worlds-largest-family-tree-links-27-MILLION-people.htmlThe algorithms predicted where common ancestors must be present in the evolutionary trees to explain the patterns of genetic variation. The resulting network contained almost 27 million ancestors.
After adding location data on these sample genomes, the authors used the network to estimate where the predicted common ancestors had lived.
The results successfully recaptured key events in human evolutionary history, including the migration out of Africa. [...]
Dr Yan Wong and Dr Wohns said in a joint statement: 'These ancestors lived up to and over one million years ago – which is much older than current estimates for the age of modern humans (c. 250,000 to 300,000 years ago) – so bits our of genome have been inherited from individuals that we wouldn't recognise as modern humans, but who most likely lived in northeast Africa.
Видео к статье:
https://youtu.be/xqy2-m080jYМожет быть интересно, авторы рассказывают:
https://youtu.be/R8G6wSFIeSE