Autor: |
Shpak, Max, Ghanavi, Hamid R., Lange, Jeremy D., Pool, John E., Stensmyr, Marcus C. |
Předmět: |
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Zdroj: |
PLoS Biology; 10/12/2023, Vol. 21 Issue 10, p1-31, 31p, 1 Color Photograph, 3 Diagrams, 3 Graphs |
Abstrakt: |
The ability to perform genomic sequencing on long-dead organisms is opening new frontiers in evolutionary research. These opportunities are especially notable in the case of museum collections, from which countless documented specimens may now be suitable for genomic analysis—if data of sufficient quality can be obtained. Here, we report 25 newly sequenced genomes from museum specimens of the model organism Drosophila melanogaster, including the oldest extant specimens of this species. By comparing historical samples ranging from the early 1800s to 1933 against modern-day genomes, we document evolution across thousands of generations, including time periods that encompass the species' initial occupation of northern Europe and an era of rapidly increasing human activity. We also find that the Lund, Sweden population underwent local genetic differentiation during the early 1800s to 1933 interval (potentially due to drift in a small population) but then became more similar to other European populations thereafter (potentially due to increased migration). Within each century-scale time period, our temporal sampling allows us to document compelling candidates for recent natural selection. In some cases, we gain insights regarding previously implicated selection candidates, such as ChKov1, for which our inferred timing of selection favors the hypothesis of antiviral resistance over insecticide resistance. Other candidates are novel, such as the circadian-related gene Ahcy, which yields a selection signal that rivals that of the DDT resistance gene Cyp6g1. These insights deepen our understanding of recent evolution in a model system, and highlight the potential of future museomic studies. Genomes from 25 museum specimens of Drosophila melanogaster (some more than 200 years old) reveal that small populations occupying northern Europe gave way to well-connected fly populations across the continent, and also illuminate targets of recent selection, including genes that may have helped this species adapt to novel climates, viruses, and insecticides. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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