Aurochs(Bos primigenius),once widely distributed in Afro-Eurasia,became extinct in the early 1600 s.However,their phylogeography and relative contributions to domestic cattle remain unknown.In this study,we analyzed 1...Aurochs(Bos primigenius),once widely distributed in Afro-Eurasia,became extinct in the early 1600 s.However,their phylogeography and relative contributions to domestic cattle remain unknown.In this study,we analyzed 16 genomes of ancient aurochs and three mitogenomes of ancient bison(Bison priscus)excavated in East Asia,dating from 43,000 to 3,590 years ago.These newly generated data with previously published genomic information on aurochs as well as ancient/extant domestic cattle worldwide through genome analysis.Ourfindings revealed significant genetic divergence between East Asian aurochs and their European,Near Eastern,and African counterparts on the basis of both mitochondrial and nuclear genomic data.Furthermore,we identified evidence of geneflow from East Asian aurochs into ancient and present-day taurine cattle,suggesting their potential role in facilitating the environmental adaptation of domestic cattle.展开更多
基金supported by the National Natural Science Foundation of China(41820104008,U2202207,U23A20161,T2222030 and 32102523)the earmarked fund for the China Agriculture Research System of MOF and MARA(CARS-37)+1 种基金the Chinese Universities Scientific Fund(2452021153)the Independent Research Fund Denmark(8028-00005B).
文摘Aurochs(Bos primigenius),once widely distributed in Afro-Eurasia,became extinct in the early 1600 s.However,their phylogeography and relative contributions to domestic cattle remain unknown.In this study,we analyzed 16 genomes of ancient aurochs and three mitogenomes of ancient bison(Bison priscus)excavated in East Asia,dating from 43,000 to 3,590 years ago.These newly generated data with previously published genomic information on aurochs as well as ancient/extant domestic cattle worldwide through genome analysis.Ourfindings revealed significant genetic divergence between East Asian aurochs and their European,Near Eastern,and African counterparts on the basis of both mitochondrial and nuclear genomic data.Furthermore,we identified evidence of geneflow from East Asian aurochs into ancient and present-day taurine cattle,suggesting their potential role in facilitating the environmental adaptation of domestic cattle.
