AI Article Synopsis
- The zebrafish is a small, tropical freshwater fish that has gained recognition as a model organism in scientific research due to its genetic advantages and rapid developmental timeline.
- It is often referred to as the "vertebrate Drosophila" because of its ease of manipulation and low costs associated with its use in experiments.
- Recent developments in high-throughput screening (HTS) techniques enable researchers to discover new therapeutics by analyzing the effects of drugs on zebrafish, allowing for comprehensive observations of whole-body and organ-specific responses.
Article Abstract
The zebrafish, Danio rerio, a small, tropical freshwater species native to Pakistan and India, has become a National Institutes of Health-sanctioned model organism and, due to its many advantages as an experimental vertebrate, it has garnered intense interest from the world's scientific community. Some have labeled the zebrafish, the "vertebrate Drosophila," due to its genetic tractability, small size, low cost, and rapid development. The transparency of the embryo, external development, and the many hundreds of mutant and transgenic lines available add to the allure. Now it appears, the zebrafish can be used for high-throughput screening (HTS) of drug libraries in the discovery process of promising new therapeutics. In this review, various types of screening methods are briefly outlined, as are a variety of screens for different disease models, to highlight the range of zebrafish HTS possibilities. High-content screening (HCS) has been available for cell-based screens for some time and, very recently, HCS is being adapted for the zebrafish. This will allow analysis, at high resolution, of drug effects on whole vertebrates; thus, whole body effects as well as those on specific organs and tissues may be determined.
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| http://dx.doi.org/10.1002/bdrc.20212 | DOI Listing |
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