Project description:Arsenophonus sp. overview

Project description:Arsenophonus whole genome shotgun assembly

Project description:Candidatus Arsenophonus arthropodicus Genome sequencing

Project description:Arsenophonus nasoniae overview

Project description:Ca. Arsenophonus triatominarum genome

Project description:Arsenophonus triatominarum whole genome shotgun assembly

Project description:Arsenophonus nasoniae strain:FIN Genome sequencing and assembly

Project description:Candidatus Arsenophonus lipopteni Genome sequencing and assembly

Project description:Symbiotic bacteria are important drivers of phenotypic diversity in insects. One of the widespread symbionts to have emerged belongs to the genus Arsenophonus, however, its biological functions in most host insects remain entirely unknown. Here we report two distinct Arsenophonus strains in the brown planthopper (BPH), Nilaparvata lugens, a major pest insect in Asian countries that causes significant economic damage through rice crop destruction. Genomic resequencing data suggested that one Arsenophonus strain (S-type) negatively affected the insecticide resistance of the host. Indeed, replacement of the resident Arsenophonus with the S-type Arsenophonus significantly decreased host insecticide resistance. Transcriptome and metabolome analysis revealed down-regulation of xenobiotic metabolism and increased amino acid accumulation in the S-type Arsenophonus infected host. This study demonstrates how a symbiont-mediated phenotypic change can occur. The results of this study will aid in developing strategies that work through imposing an ecological disadvantage on insect pests, which will be of great value for pest control in agricultural industry.

Project description:Arsenophonus apicola str. ArsBeeUS genome sequencing and assembly