Please use this identifier to cite or link to this item: https://doi.org/10.1371/journal.pgen.1000121
Title: Zebrafish whole-adult-organism chemogenomics for large-scale predictive and discovery chemical biology.
Authors: Lam, S.H. 
Mathavan, S. 
Tong, Y. 
Li, H.
Karuturi, R.K.
Wu, Y.
Vega, V.B.
Liu, E.T.
Gong, Z. 
Issue Date: Jul-2008
Source: Lam, S.H., Mathavan, S., Tong, Y., Li, H., Karuturi, R.K., Wu, Y., Vega, V.B., Liu, E.T., Gong, Z. (2008-07). Zebrafish whole-adult-organism chemogenomics for large-scale predictive and discovery chemical biology.. PLoS genetics 4 (7) : e1000121-. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pgen.1000121
Abstract: The ability to perform large-scale, expression-based chemogenomics on whole adult organisms, as in invertebrate models (worm and fly), is highly desirable for a vertebrate model but its feasibility and potential has not been demonstrated. We performed expression-based chemogenomics on the whole adult organism of a vertebrate model, the zebrafish, and demonstrated its potential for large-scale predictive and discovery chemical biology. Focusing on two classes of compounds with wide implications to human health, polycyclic (halogenated) aromatic hydrocarbons [P(H)AHs] and estrogenic compounds (ECs), we generated robust prediction models that can discriminate compounds of the same class from those of different classes in two large independent experiments. The robust expression signatures led to the identification of biomarkers for potent aryl hydrocarbon receptor (AHR) and estrogen receptor (ER) agonists, respectively, and were validated in multiple targeted tissues. Knowledge-based data mining of human homologs of zebrafish genes revealed highly conserved chemical-induced biological responses/effects, health risks, and novel biological insights associated with AHR and ER that could be inferred to humans. Thus, our study presents an effective, high-throughput strategy of capturing molecular snapshots of chemical-induced biological states of a whole adult vertebrate that provides information on biomarkers of effects, deregulated signaling pathways, and possible affected biological functions, perturbed physiological systems, and increased health risks. These findings place zebrafish in a strategic position to bridge the wide gap between cell-based and rodent models in chemogenomics research and applications, especially in preclinical drug discovery and toxicology.
Source Title: PLoS genetics
URI: http://scholarbank.nus.edu.sg/handle/10635/116035
ISSN: 15537404
DOI: 10.1371/journal.pgen.1000121
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