AI Article Synopsis
- The migration of modern Eurasians from Africa involved interbreeding with Neanderthals and Denisovans, incorporating archaic DNA into their genomes, which may have helped adaptation to new environments.
- Research examined the evolution of circadian rhythms (chronotypes) by comparing gene sequences between archaic hominins and present-day humans, identifying differences in 28 circadian genes that could affect gene expression and regulation.
- The study found that archaic genetic variants are linked to chronotype traits, particularly favoring morningness, suggesting possible adaptations in response to higher latitudes, and highlighted specific genes with evidence of adaptive introgression.
Article Abstract
When the ancestors of modern Eurasians migrated out of Africa and interbred with Eurasian archaic hominins, namely, Neanderthals and Denisovans, DNA of archaic ancestry integrated into the genomes of anatomically modern humans. This process potentially accelerated adaptation to Eurasian environmental factors, including reduced ultraviolet radiation and increased variation in seasonal dynamics. However, whether these groups differed substantially in circadian biology and whether archaic introgression adaptively contributed to human chronotypes remain unknown. Here, we traced the evolution of chronotype based on genomes from archaic hominins and present-day humans. First, we inferred differences in circadian gene sequences, splicing, and regulation between archaic hominins and modern humans. We identified 28 circadian genes containing variants with potential to alter splicing in archaics (e.g., CLOCK, PER2, RORB, and RORC) and 16 circadian genes likely divergently regulated between present-day humans and archaic hominins, including RORA. These differences suggest the potential for introgression to modify circadian gene expression. Testing this hypothesis, we found that introgressed variants are enriched among expression quantitative trait loci for circadian genes. Supporting the functional relevance of these regulatory effects, we found that many introgressed alleles have associations with chronotype. Strikingly, the strongest introgressed effects on chronotype increase morningness, consistent with adaptations to high latitude in other species. Finally, we identified several circadian loci with evidence of adaptive introgression or latitudinal clines in allele frequency. These findings identify differences in circadian gene regulation between modern humans and archaic hominins and support the contribution of introgression via coordinated effects on variation in human chronotype.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10719892 | PMC |
| http://dx.doi.org/10.1093/gbe/evad203 | DOI Listing |
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