Forward Chemical Genetics

Abstract

AbstractWith the successful results of the Human Genome Project, we are now faced with the problem of handling numerous gene targets whose functions remain to be studied; this challenge is being undertaken by the field known as functional genomics. Chemical genetics is an emerging new paradigm to attack this challenging problem, of which there are two approaches: forward and reverse. Although reverse chemical genetics uses a “cause‐to‐effect” approach, forward chemical genetics uses an “effect‐to‐cause” approach. As opposed to conventional genetics where gene knock‐outs or overexpression, forward chemical genetics uses a small‐molecule library to produce a novel phenotype that eventually is employed in the elucidation of gene function. Compared with conventional genetics, chemical genetics holds several unique advantages. A successful forward genetic study provides not only knowledge about a novel gene's function, but also it provides a small moleculeON/OFFswitch that can regulate biologic processes. These small molecules will be extremely useful biologic probes as well as potential new drug candidates. Three main components make up forward chemical genetics: 1) chemical toolbox generation, 2) phenotypic screening, and 3) target identification. Although all three components require additional refinement, target identification poses the greatest challenge. Herein, the general concepts of chemical genetics, with a focus on the forward approach, and the technical overviews for each component are described.