@inbook{1b6da863875543fb85213a4916f6da5d,
title = "Daphnia as an emerging model for toxicological genomics",
abstract = "Daphnia are already an established model species in toxicology. This freshwater crustacean is used commonly for environmental monitoring of pollutants around the globe and plays an important role in establishing regulatory criteria by government agencies (e.g., US EPA, Environment Canada organization for Economic Cooperation and Development, Environment Agency of Japan). Consequently, daphniids represent 8% of all experimental data for aquatic animals within the toxicological databases (Denslow et al., 2007). As such, their incorporation within the new field of toxicological genomics is limited only by the advancement of genomic resources. Because the development of these technologies requires the input and feedback of a large research community that extends far beyond the boundaries of any one discipline, the Daphnia Genomics Consortium (DGC) was formed in 2001 to: (i) provide the organizational framework to coordinate efforts at developing the Daphnia genomic toolbox; (ii) facilitate collaborative research and (iii) develop bioinformatics strategies for organizing the rapidly growing database. This chapter reviews the progress in establishing Daphnia as model species for genomic studies, with emphasis on toxicological applications. As the goals of the DGC are defined largely by extending the boundaries of current biological research in light of genomic information, this chapter first reviews Daphnia's unique biological attributes that make it ideal for such an expansion of research efforts. These attributes include a long tradition of ecological, evolutionary and toxicological study, culminating in the benefits provided by emerging genomic tools.",
keywords = "BioMart, BLAST, cDNA, Ceriodaphnia dubia, Daphnia Genomic Consortium, Daphnia magna, Daphnia pulex, daphniid, ecology, environment, evolution, expressed sequence tag (EST), gene, gene expression, gene inventory, Gene Ontology (GO), gene-expression profiling, Generic Model Organism Database (GMOD), genetic map, genetics, genome, genomics, microarray, model system, physical map, quantitative trait loci (QTL) analysis, toxicity test, toxicogenomics, toxicological genomics, toxicology, wFleaBase",
author = "Shaw, {Joseph R.} and Pfrender, {Michael E.} and Eads, {Brian D.} and Rebecca Klaper and Amanda Callaghan and Sibly, {Richard M.} and Isabelle Colson and Bastiaan Jansen and Donald Gilbert and Colbourne, {John K.}",
year = "2008",
doi = "10.1016/S1872-2423(08)00005-7",
language = "English",
isbn = "9780444532749",
series = "Advances in Experimental Biology",
publisher = "Elsevier Korea",
pages = "165--219,327--328",
booktitle = "Comparative Toxicogenomics",
address = "Korea, Republic of",
}