Biblio
“Surface functionalities of gold nanoparticles impact embryonic gene expression responses”, Nanotoxicology, vol. 7, no. 2, pp. 192 - 201, 2013.
, “Sulfhydryl systems are a critical factor in the zebrafish developmental toxicity of the dithiocarbamate sodium metam (NaM)”, Aquatic Toxicology, vol. 90, no. 2, pp. 121 - 127, 2008.
, “Ligand-Specific Transcriptional Mechanisms Underlie Aryl Hydrocarbon Receptor-Mediated Developmental Toxicity of Oxygenated PAHs”, Toxicological Sciences, vol. 147, no. 2, pp. 397 - 411, 2015.
, “Global gene expression analysis reveals pathway differences between teratogenic and non-teratogenic exposure concentrations of bisphenol A and 17β-estradiol in embryonic zebrafish”, Reproductive Toxicology, vol. 38, pp. 89 - 101, 2013.
, “Exposure to Sodium Metam during Zebrafish Somitogenesis Results in Early Transcriptional Indicators of the Ensuing Neuronal and Muscular Dysfunction”, Toxicological Sciences, vol. 106, no. 1, pp. 103 - 112, 2008.
, “Environmental stresses and skeletal deformities in fish from the Willamette River, Oregon.”, Environ Sci Technol, vol. 39, no. 10, pp. 3495-506, 2005.
, “Early life stage trimethyltin exposure induces ADP-ribosylation factor expression and perturbs the vascular system in zebrafish”, Toxicology, vol. 302, no. 2-3, pp. 129 - 139, 2012.
, “Early life perfluorooctanesulphonic acid (PFOS) exposure impairs zebrafish organogenesis”, Aquatic Toxicology, vol. 150, pp. 124 - 132, 2014.
, “Dithiocarbamates have a common toxic effect on zebrafish body axis formation”, Toxicology and Applied Pharmacology, vol. 216, no. 1, pp. 55 - 68, 2006.
, “Developmental Toxicity of the Dithiocarbamate Pesticide Sodium Metam in Zebrafish”, Toxicological Sciences, vol. 81, no. 2, pp. 390 - 400, 2004.
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