Portal:Daphnia
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Welcome to the Daphnia Portal on WikiPathways
 Daphnia magna, CC-BY-SA |
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News
This portal aims to get researchers using Daphnia as model system together and develop a biological pathway knowledge base to support understanding experimental data, particular (multi)omics data.
- 2022-05-21: Gene identifiers added to the first pathway, based on Ensembl gene name matches
- 2022-04-28: First release of BridgeDb identifier mappings database (see https://zenodo.org/record/6500401)
- 2021-04-21: Outline of Portal launched
- 2021-04-12: First pathway drawn
PubMed RSS feed
PubMed RSS feed from for '"Daphnia magna" AND omics'.
- Multi-omics analyses reveal combined toxic mechanisms of tricresyl phosphate and TiO(2) nanoparticle on Daphnia magna
- Improving micro-/nanoplastics (MNPs) ecotoxicity assessment: A harmonised ecotoxicity testing approach with Daphnia magna
- Substantiating chemical groups for read-across using molecular response profiles
- SOLA: dissecting dose-response patterns in multi-omics data using a semi-supervised workflow
- Analysis of the stereoselective fate and toxicity of penflufen in the water-sediment system for risk reduction
PubMed RSS feed
PubMed RSS feed from for '"Daphnia magna" AND pathway'.
- Microplastic and nanoplastic particles exert distinct effects on the toxicity and action mechanisms of CuO nanoparticles in Daphnia magna
- Contrasting interactions of Cd, Cu, and Zn during uptake and efflux in Daphnia magna
- Structure-ecotoxicity relationships and risk assessment of 0D-3D carbon nanomaterials across aquatic trophic levels
- Neurotoxic effects of representative pharmaceutical mixtures from Mediterranean rivers impacted by waste water treated effluents
- Nanoplastic-induced microbiome shifts reduce <em>Daphnia</em> fitness and increase parasite reproduction
Featured Pathway
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Insulin and TOR signaling genes (Daphnia pulex) Image does not exist Insulin and TOR signaling genes |
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