Complex genomic landscape of inversion polymorphism in Europe's most destructive forest pest
Oxford University Press
2024
evae263.pdf - Publisher's version - 1.48 MB
How to cite: Anastasiia Mykhailenko, Piotr Zieliński, Aleksandra Bednarz, Fredrik Schlyter, Martin N Andersson, Bernardo Antunes, Zbigniew Borowski, Paal Krokene, Markus Melin, Julia Morales-García, Jörg Müller, Zuzanna Nowak, Martin Schebeck, Christian Stauffer, Heli Viiri, Julia Zaborowska, Wiesław Babik, Krystyna Nadachowska-Brzyska, Complex Genomic Landscape of Inversion Polymorphism in Europe's Most Destructive Forest Pest, Genome Biology and Evolution, Volume 16, Issue 12, December 2024, evae263, https://doi.org/10.1093/gbe/evae263
Pysyvä osoite
Tiivistelmä
In many species, polymorphic genomic inversions underlie complex phenotypic polymorphisms and facilitate local adaptation in the face of gene flow. Multiple polymorphic inversions can co-occur in a genome, but the prevalence, evolutionary significance, and limits to complexity of genomic inversion landscapes remain poorly understood. Here, we examine genome-wide genetic variation in one of Europe's most destructive forest pests, the spruce bark beetle Ips typographus, scan for polymorphic inversions, and test whether inversions are associated with key traits in this species. We analyzed 240 individuals from 18 populations across the species' European range and, using a whole-genome resequencing approach, identified 27 polymorphic inversions covering ∼28% of the genome. The inversions vary in size and in levels of intra-inversion recombination, are highly polymorphic across the species range, and often overlap, forming a complex genomic architecture. We found no support for mechanisms such as directional selection, overdominance, and associative overdominance that are often invoked to explain the presence of large inversion polymorphisms in the genome. This suggests that inversions are either neutral or maintained by the combined action of multiple evolutionary forces. We also found that inversions are enriched in odorant receptor genes encoding elements of recognition pathways for host plants, mates, and symbiotic fungi. Our results indicate that the genome of this major forest pest of growing social, political, and economic importance harbors one of the most complex inversion landscapes described to date and raise questions about the limits of intraspecific genomic architecture complexity.
ISBN
OKM-julkaisutyyppi
A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
Julkaisusarja
Genome biology and evolution
Volyymi
16
Numero
12
Sivut
Sivut
12 p.
ISSN
1759-6653