New Wolbachia pipientis Genotype Increasing Heat Stress Resistance of Drosophila melanogaster Host Is Characterized by a Large Chromosomal Inversion.
Aleksandra Y KorenskaiaOlga D ShishkinaAlexandra I KlimenkoOlga V AndreenkovaMargarita A BobrovskikhNatalja V ShatskayaGennady V VasilievNataly E GruntenkoPublished in: International journal of molecular sciences (2022)
The maternally transmitted endocellular bacteria Wolbachia is a well-known symbiont of insects, demonstrating both negative and positive effects on host fitness. The previously found Wolbachia strain wMelPlus is characterized by a positive effect on the stress-resistance of its host Drosophila melanogaster , under heat stress conditions. This investigation is dedicated to studying the genomic underpinnings of such an effect. We sequenced two closely related Wolbachia strains, wMelPlus and wMelCS 112 , assembled their complete genomes, and performed comparative genomic analysis engaging available Wolbachia genomes from the wMel and wMelCS groups. Despite the two strains under study sharing very close gene-composition, we discovered a large (>1/6 of total genome) chromosomal inversion in wMelPlus, spanning through the region that includes the area of the inversion earlier found in the wMel group of Wolbachia genotypes. A number of genes in unique inversion blocks of wMelPlus were identified that might be involved in the induction of a stress-resistant phenotype in the host. We hypothesize that such an inversion could rearrange established genetic regulatory-networks, causing the observed effects of such a complex fly phenotype as a modulation of heat stress resistance. Based on our findings, we propose that wMelPlus be distinguished as a separate genotype of the wMelCS group, named wMelCS3.
Keyphrases
- heat stress
- drosophila melanogaster
- aedes aegypti
- dengue virus
- copy number
- heat shock
- contrast enhanced
- genome wide
- zika virus
- escherichia coli
- physical activity
- transcription factor
- dna methylation
- body composition
- magnetic resonance
- gene expression
- magnetic resonance imaging
- social media
- computed tomography
- genome wide identification
- health information
- stress induced
- bioinformatics analysis