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A butterfly pan-genome reveals that a large amount of structural variation underlies the evolution of chromatin accessibility.

Authors :
Ruggieri AA
Livraghi L
Lewis JJ
Evans E
Cicconardi F
Hebberecht L
Ortiz-Ruiz Y
Montgomery SH
Ghezzi A
Rodriguez-Martinez JA
Jiggins CD
McMillan WO
Counterman BA
Papa R
Van Belleghem SM
Source :
Genome research [Genome Res] 2022 Oct; Vol. 32 (10), pp. 1862-1875. Date of Electronic Publication: 2022 Sep 15.
Publication Year :
2022

Abstract

Despite insertions and deletions being the most common structural variants (SVs) found across genomes, not much is known about how much these SVs vary within populations and between closely related species, nor their significance in evolution. To address these questions, we characterized the evolution of indel SVs using genome assemblies of three closely related Heliconius butterfly species. Over the relatively short evolutionary timescales investigated, up to 18.0% of the genome was composed of indels between two haplotypes of an individual Heliconius charithonia butterfly and up to 62.7% included lineage-specific SVs between the genomes of the most distant species (11 Mya). Lineage-specific sequences were mostly characterized as transposable elements (TEs) inserted at random throughout the genome and their overall distribution was similarly affected by linked selection as single nucleotide substitutions. Using chromatin accessibility profiles (i.e., ATAC-seq) of head tissue in caterpillars to identify sequences with potential cis -regulatory function, we found that out of the 31,066 identified differences in chromatin accessibility between species, 30.4% were within lineage-specific SVs and 9.4% were characterized as TE insertions. These TE insertions were localized closer to gene transcription start sites than expected at random and were enriched for sites with significant resemblance to several transcription factor binding sites with known function in neuron development in Drosophila We also identified 24 TE insertions with head-specific chromatin accessibility. Our results show high rates of structural genome evolution that were previously overlooked in comparative genomic studies and suggest a high potential for structural variation to serve as raw material for adaptive evolution.<br /> (© 2022 Ruggieri et al.; Published by Cold Spring Harbor Laboratory Press.)

Details

Language :
English
ISSN :
1549-5469
Volume :
32
Issue :
10
Database :
MEDLINE
Journal :
Genome research
Publication Type :
Academic Journal
Accession number :
36109150
Full Text :
https://doi.org/10.1101/gr.276839.122