Diagnostic strains of the Salmonella / microsome assay as a potential tool in effect directed analysis: application in a solution-oriented project

Abstract

Mutagenic chemicals are generally present in the environment as complex mixtures. Mutations can occur both in germ or somatic cells leading to several adverse effects. The analysis of previously known mutagenic compounds is not enough to identify all the mutagenic compounds present in environmental samples. Bioassays, like the Salmonella/microsome assay (Ames test), are key elements in an Effect Directed Analysis (EDA) because they can drive the chemical identification of priority pollutants. This project aims to use specific strains of Salmonella as diagnostic tools in the assay to help identify major mutagenic toxicants in the aquatic environment. The proposed project will be part of a collaborative solution-oriented project already approved by the European Commission -EU Work Programme 2013 named "Solutions for present and future emerging pollutants in land and water resources management". The specificities of the different Salmonella tester strains will be exploited to suggest the types or classes of mutagenic chemicals that are present in environmental sample extracts, and chemical analysis will be performed for confirmation of the results. If successful, this approach will be incorporated as a new diagnostic tool in EDA. We intend to identify new mutagenic compounds using the chemical and biological tools proposed in the Project, supporting the selection of priority pollutants in an integrated risk based approach. The involvement of the Brazilian participants in this project is a great opportunity and will certainly greatly increase the knowledge and expertise of the group, not only in the scientific issues, but also how to work with an international team focused on solutions to complex environmental problems. (AU)