Project description:Plakobranchus ocellatus overview

Project description:The genome sequencing of Plakobranchus ocellatus (Sacoglossa, Mollusca)

Project description:Tissue specific expression profile of Plakobranchus ocellatus type black

Project description:Genome sequencing of sequestered chloroplast by Plakobranchus ocellatus

Project description:Placobranchus ocellatus

Project description:Plakobranchus papua Genome sequencing and assembly

Project description:Plakobranchus ocellatus metagenomic sequence

Project description:Kryptolebias ocellatus

Project description:Cyrtonyx ocellatus

Project description:Some sea slugs sequester chloroplasts from algal food in their intestinal cells and photosynthesize for months. This phenomenon, kleptoplasty, poses a question of how the chloroplast retains its activity without the algal nucleus. There have been debates on the horizontal transfer of algal genes to the animal nucleus. To settle the arguments, this study reported the genome of a kleptoplastic sea slug, Plakobranchus ocellatus, and found no evidence of photosynthetic genes encoded on the nucleus. Nevertheless, it was confirmed that light illumination prolongs the life of mollusk under starvation. These data presented a paradigm that a complex adaptive trait, as typified by photosynthesis, can be transferred between eukaryotic kingdoms by a unique organelle transmission without nuclear gene transfer. Our phylogenomic analysis showed that genes for proteolysis and immunity undergo gene expansion and are up-regulated in chloroplast-enriched tissue, suggesting that these molluskan genes are involved in the phenotype acquisition without horizontal gene transfer.