Project description:Sanderia malayensis (jellyfish), genomic and transcriptomic data

Project description:Elaphrothrips malayensis

Project description:Ictinaetus malayensis

Project description:Identification of differentially expressed genes during polyp to jellyfish transition in Aurelia aurita

Project description:The scyphozoan jellyfish Nemopilema nomurai are common blooming species in China.The venomous characteristics of jellyfish Nemopilema nomurai is largely attributed to their complex and elaborate venom delivery system: the stinging cells, or nematocytes. These specialized cells synthesize and secrete unique intracellular organelles called nematocysts. Nematocysts with heterogeneous sizes and morphologies may contain different toxic components that exert diverse pharmacological and physiological activities such as hemolysis, cytolysis and proteolysis for defense and prey capture. We modified the previous method of nematocyst preparation using density centrifugation to purify undischarged nematocysts from jellyfish Nemopilema nomurai tentacles. Ultimately, isorhiza-type were successfully purified.Then we used purified nematocysts for proteomic study to identify sting-related toxins in Nemopilema nomurai nematocysts.

Project description:The scyphozoan jellyfish Cyanea capillata are common blooming species in China.The venomous characteristics of jellyfish Cyanea capillata is largely attributed to their complex and elaborate venom delivery system: the stinging cells, or nematocytes. These specialized cells synthesize and secrete unique intracellular organelles called nematocysts. Nematocysts with heterogeneous sizes and morphologies may contain different toxic components that exert diverse pharmacological and physiological activities such as hemolysis, cytolysis and proteolysis for defense and prey capture. We modified the previous method of nematocyst preparation using density centrifugation to purify undischarged nematocysts from jellyfish Cyanea capillata tentacles. Ultimately, mastigophore-type nematocysts were successfully purified.Then we used purified nematocysts for proteomic study to identify sting-related toxins in Cyanea capillata nematocysts.

Project description:Jellyfish blooms represent a significant, but largely overlooked, source of labile organic matter (jelly-OM) in the ocean, characterized by high protein content with a low C:N ratio. The bloom-decay cycle of jellyfish in coastal waters are important vehicles for carbon export to the ocean’s interior. To accurately incorporate them into biogeochemical models, the interactions between microbes and jelly-OM have yet to be fully characterized. We conducted jelly-OM enrichment experiments to simulate the scenario experienced by the coastal microbiome after the decay of a jellyfish bloom. We combined metagenomics, endo- and exo-metaproteomic approaches to obtain a mechanistic understanding on the metabolic network operated by the jelly-OM degrading bacterial consortium.

Project description:Cassiosomes are cell clusters that contain symbiotic dinoflagellates and nematocysts and released in a suspension of mucus by the up-side down jellyfish Cassiopea xamachana into the water column. Divers passing Cassiopea colonies experience skin irritation without directly disturbing the jellyfish. Cassiosomes and the structures that release them (vesicular appendages) were examined via shotgun mass spectrometry to determine whether these structures contain toxins that could be responsible for skin irritation.

Project description:Mitochondrial genome of Chthamalus malayensis sequencing

Project description:Jellyfish transcriptomics