TY - JOUR T1 - Archaic introgression and variation in pharmacogenes and implications for local adaptation JF - bioRxiv DO - 10.1101/2021.11.27.470071 SP - 2021.11.27.470071 AU - Tadeusz H. Wroblewski AU - Kelsey E. Witt AU - Seung-been Lee AU - Ripan S. Malhi AU - Emilia Huerta-Sanchez AU - Fernando Villanea AU - Katrina G. Claw Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/11/28/2021.11.27.470071.abstract N2 - Modern humans carry Neanderthal and Denisovan (archaic) genome elements which may have been a result of environmental adaptation. These effects may be particularly evident in pharmacogenes – genes responsible for the processing of exogenous substances such as food, pollutants, and medications. However, the health implications and contribution of archaic ancestry in pharmacogenes of modern humans remains understudied. We characterize eleven key cytochrome P450 (CYP450) genes involved in drug metabolizing reactions in three Neanderthal and one Denisovan individuals and examine archaic introgression in modern human populations. We infer the metabolizing efficiency of these eleven genes in archaic individuals and show important genetic differences relative to modern human variants. We identify archaic-specific SNVs in each CYP450 gene, including some that are potentially damaging, which may result in altered metabolism in modern human people carrying these variants. We highlight four genes which display interesting patterns of archaic variation: CYP2B6 – we find a large number of unique variants in the Vindija Neanderthal, some of which are shared with a small subset of African modern humans; CYP2C9 – containing multiple variants that are shared between Europeans and Neanderthals; CYP2A6*12 – a variant defined by a hybridization event that was found in humans and Neanderthals, suggesting the recombination event predates both species; and CYP2J2 – in which we hypothesize a Neanderthal variant was re-introduced in non-African populations by archaic admixture. The genetic variation identified in archaic individuals imply environmental pressures that may have driven CYP450 gene evolution.Competing Interest StatementThe authors have declared no competing interest. ER -