par Liu, Cong;Hellemans, Simon 
;Kinjo, Yukihiro;Mikhailova, Alina;Aumont, Cédric;Weng, Yi-Ming;Buček, Aleš;Husnik, Filip;Šobotník, Jan;Harrison, Mark C.;McMahon, Dino P.;Bourguignon, Thomas
Référence Evolution
Publication Publié, 2026-01-16
;Kinjo, Yukihiro;Mikhailova, Alina;Aumont, Cédric;Weng, Yi-Ming;Buček, Aleš;Husnik, Filip;Šobotník, Jan;Harrison, Mark C.;McMahon, Dino P.;Bourguignon, Thomas Référence Evolution
Publication Publié, 2026-01-16
Article révisé par les pairs
| Résumé : | Abstract Horizontal gene transfer (HGT), the transmission of genetic material across species, is an important innovation source in prokaryotes. In contrast, its significance is unclear in many eukaryotes, including insects. Here, we used high-quality genomes of 45 termites and two cockroaches to investigate HGTs from non-metazoan organisms across blattodean genomes. We identified 289 genes and 2,494 pseudogenes classified into 168 orthologous groups originating from an estimated 281 HGT events. Wolbachia represented the primary HGT source, while termite gut bacteria and the cockroach endosymbiont Blattabacterium did not contribute meaningfully to HGTs. Most horizontally acquired genes descended from recent and species-specific HGTs, experienced frequent duplications and pseudogenizations, and accumulated substitutions faster than synonymous sites of native protein-coding genes. Genes frequently transferred horizontally to termite genomes included mobile genetic elements and genetic information processing genes. Our results indicate that termites continuously acquired genes through HGT, and that most horizontally acquired genes are specific to restricted lineages. Overall, genes acquired by HGT by termites and cockroaches seemed generally non-functional and bound to be lost. |
