4.7 Article

Multiscale analysis of the randomization limits of the chromosomal gene organization between Lepidoptera and Diptera

Journal

Publisher

ROYAL SOC
DOI: 10.1098/rspb.2021.2183

Keywords

genome evolution; macrosynteny conservation; microsynteny conservation; developmental gene clusters; Lepidoptera; Diptera

Funding

  1. UCI Mexus

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This study compares the genomic organization of the butterfly and fruit fly and finds evidence of a common ancestor. Despite the phylogenetic distance, some orthologous genes are still located within the same genomic neighborhood. The rate of chromosome repatterning is lower in butterflies compared to fruit flies. Additionally, certain developmental gene clusters show a higher tendency for retention in butterflies. These findings shed light on the evolution of gene organization in insects and help reconstruct the ancestral genome.
How chromosome gene organization and gene content evolve among distantly related and structurally malleable genomes remains unresolved. This is particularly the case when considering different insect orders. We have compared the highly contiguous genome assemblies of the lepidopteran Danaus plexippus and the dipteran Drosophila melanogaster, which shared a common ancestor around 290 Ma. The gene content of 23 out of 30 D. plexippus chromosomes was significantly associated with one or two of the six chromosomal elements of the Drosophila genome, denoting common ancestry. Despite the phylogenetic distance, 9.6% of the 1-to-1 orthologues still reside within the same ancestral genome neighbourhood. Furthermore, the comparison D. plexippus-Bombyx mori indicated that the rates of chromosome repatterning are lower in Lepidoptera than in Diptera, although still within the same order of magnitude. Concordantly, 14 developmental gene clusters showed a higher tendency to retain full or partial clustering in D. plexippus, further supporting that the physical association between the SuperHox and NK clusters existed in the ancestral bilaterian. Our results illuminate the scope and limits of the evolution of the gene organization and content of the ancestral chromosomes to the Lepidoptera and Diptera while helping reconstruct portions of the genome in their most recent common ancestor.

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