PAH Fate and Exposure PAH Health Outcomes Predicting Toxicity of PAH Mixtures PAH Remediation and Transformations Virtual Lab Tours Sinnhuber Aquatic Research Laboratory Tour Publications & Citation Publications Citation for Publications Author Info Mcclure RS 2025 Mary LS, Mcclure RS, Truong L, Carrell SJ, Waters KM, Tanguay RL Phenotypically anchored transcriptomics across diverse agrichemicals reveals conserved pathways and unique gene expression signatures in zebrafish Front Toxicol PubMed PMC12575134 2021 Shankar P, Mcclure RS, Waters KM, Tanguay RL Gene co-expression network analysis in zebrafish reveals chemical class specific modules. BMC Genomics PubMed PMC8438978 2019 Shankar P, Geier MC, Truong L, Mcclure RS, Pande P, Waters KM, Tanguay RL Coupling Genome-wide Transcriptomics and Developmental Toxicity Profiles in Zebrafish to Characterize Polycyclic Aromatic Hydrocarbon (PAH) Hazard. Int J Mol Sci PubMed PMC6566387 1905 Rericha Y, Mary LS, Truong L, Mcclure RS, Martin JK, Leonard SW, Thunga P, Simonich MT, Waters KM, Field JA, Tanguay RL Diverse PFAS produce unique transcriptomic changes linked to developmental toxicity in zebrafish. Front Toxicol PubMed PMC11298493 Mcclure RS, Rericha Y, Waters KM, Tanguay RL 3' RNA-seq is superior to standard RNA-seq in cases of sparse data but inferior at identifying toxicity pathways in a model organism. Front Bioinform PubMed PMC10414111 Wilson LB, Mcclure RS, Waters KM, Simonich MT, Tanguay RL Concentration-response gene expression analysis in zebrafish reveals phenotypically-anchored transcriptional responses to retene. Front Toxicol PubMed PMC9453431
