Project description:Zebrafish larvae exposed by tire wear particles leachate and latex paticles leachate (long period, 30 days)

Project description:Zebrafish larvae exposed by tire wear particles leachate and latex paticles leachate (leaching for short-term period, 7 days)

Project description:Tire-wear particles (TWPs) are considered among the largest contributors of microplastics to the environment. They are subject to break-down due to environmental weathering, which allows for potentially toxic chemicals to be leached from and sorbed onto the particles. In this study, leachate generated from “weathered” and “un-weathered” TWPs were used for sublethal toxicity tests with Americamysis bahia.

Project description:The effects of tire wear particles on zebrafish eyes

Project description:Tire-wear particle leachate toxicity to Americamysis bahia: analysis of sublethal and molecular effects

Project description:Transcriptional profiling of zebrafish larvae comparing control with AgNO3 or AgNPs exposed zebrafish larvae.

Project description:Toxicogenomic analysis in liver of zebrafish exposed to polluted groundwater

Project description:Rna-seq of control and 2mM NaBu-treated zebrafish larvae (8 dpf)

Project description:Zebrafish were fed IROA labelled nematodes (smaple 1-4); In a second experiment, zebrafish larvae were exposed to DEHP, a chemical that is a suspected obesogen.

Project description:Despite the involvement of several serine hydrolases (SHs) in the metabolism of xenobiotics such as dibutyl phthalate (DBP), no study has focused on mapping this enzyme class in zebrafish, a model organism frequently used in ecotoxicology. Here, we survey and identify active SHs in zebrafish larvae and search for biological markers of SH type after exposition to DBP. Zebrafish were exposed to 0, 5, and 100 µg/L DBP from 4 to 120 h post-fertilization. A significant decrease in vitellogenin expression level of about 2-fold compared to the control was found in larvae exposed to 100 µg/L DBP for 120h. The first comprehensive profiling of active SHs in zebrafish proteome was achieved with an activity-based protein profiling (ABPP) approach. Among 49 SHs identified with high confidence, one was the carboxypeptidase ctsa overexpressed in larvae exposed to 100 µg/L DBP for 120h. To the best of our knowledge, this is the first time that a carboxypeptidase has been identified as deregulated following exposure to DBP. The overall results indicate that targeted proteomics approaches such as ABPP can therefore be an asset for understanding the mechanism of action related to xenobiotics in ecotoxicology.