An Exceptionally Complex Chromosome Rearrangement in the Great Tit (Parus major): Genetic Composition, Meiotic Behavior and Population Frequency.
Anna Torgasheva, Lyubov Malinovskaya, Miroslav Nuriddinov, Kira S Zadesenets, Maria Gridina, Artem Nurislamov, Svetlana Korableva, Inna Pristyazhnyuk, Anastasiya Proskuryakova, Katerina V Tishakova, Nikolay B Rubtsov, Veniamin S Fishman, Pavel Borodin
Abstract
Open AccessChromosomal inversions and copy-number variants (CNVs) drive genomic and phenotypic diversification in birds by reshaping recombination, gene expression, and genome architecture. Here, we report a complex structural polymorphism on great tit (Parus major) chromosome 1A that occurs in the Siberian population with a 19% heterozygote frequency. Using cytogenetic and genomic approaches, we show that this rearrangement combines a ~55 Mb paracentric inversion in the long arm with a dramatic (>30 Mb) expansion of the short arm driven by extensive amplification of multiple genomic loci. These include a region homologous to the poorly characterized FAM118A gene, whose paralog FAM118B has been recently shown to play a pivotal role in innate immune activation. This region is missing from the current reference genome assembly while present in ~20 copies on wild-type 1A chromosome and nearly twentyfold amplified in the rearranged variant. It contains a nested 630 bp tandem repeat, encompassing the entire exon 3, which has burst to a total of ~50,000 copies in the rearranged chromosome. While functional analyses are required to uncover the biological effects of the genomic features linked to this rearrangement, our results offer a unique framework for studying how complex structural polymorphisms drive genome innovation and adaptive diversity.