Pangenomics provides insights into the role of synanthropy in barn swallow evolution
Author:
Secomandi SimonaORCID, Gallo Guido RobertoORCID, Sozzoni Marcella, Iannucci Alessio, Galati Elena, Abueg Linelle, Balacco Jennifer, Caprioli Manuela, Chow William, Ciofi Claudio, Collins Joanna, Fedrigo OlivierORCID, Ferretti Luca, Fungtammasan Arkarachai, Haase Bettina, Howe Kerstin, Kwak Woori, Lombardo Gianluca, Masterson Patrick, Messina GraziellaORCID, Møller Anders Pape, Mountcastle Jacquelyn, Mousseau Timothy A., Ferrer-Obiol Joan, Olivieri Anna, Rhie Arang, Rubolini Diego, Saclier Marielle, Stanyon Roscoe, Stucki David, Thibaud-Nissen Françoise, Torrance James, Torroni Antonio, Weber Kristina, Ambrosini Roberto, Bonisoli-Alquati Andrea, Jarvis Erich D., Gianfranceschi LucaORCID, Formenti GiulioORCID
Abstract
AbstractInsights into the evolution of non-model organisms are often limited by the lack of reference genomes. As part of the Vertebrate Genomes Project, we present a new reference genome and a pangenome produced with High-Fidelity long reads for the barn swallow Hirundo rustica. We then generated a reference-free multialignment with other bird genomes to identify genes under selection. Conservation analyses pointed at genes enriched for transcriptional regulation and neurodevelopment. The most conserved gene is CAMK2N2, with a potential role in fear memory formation. In addition, using all publicly available data, we generated a comprehensive catalogue of genetic markers. Genome-wide linkage disequilibrium scans identified potential selection signatures at multiple loci. The top candidate region comprises several genes and includes BDNF, a gene involved in stress response, fear memory formation, and tameness. We propose that the strict association with humans in this species is linked with the evolution of pathways typically under selection in domesticated taxa.
Publisher
Cold Spring Harbor Laboratory
|
|