Researcher Jason Thomas, a graduate student in the doctoral program for synthetic organic chemistry at City University in New York, takes us inside the mind of a designer steroid chemist in an interview with Culturekiosque. Thomas describes a powerful tool that has the potential to create an infinite number of undetectable, designer anabolic steroids.
Once steroid designers specify the essential features and desired biological activity for steroid drug design, hundreds of novel designer steroids could be synthesized or simulated through Dynamic Combinatorial Chemistry (DCC) ["Designer Steroids: Speeding Evolution (and Filling Stadium Seats)" August 8].Â
Until now, human attempts to change testosterone’s anabolic, androgenic or estrogen-related properties have been relatively slow due to the fact that they have been addressed one at a time. A steroid designer imagines a certain compound, synthesizes it, and then tests it for effectiveness. This can take a matter of weeks or years. However, this process is about to undergo a drastic change. Dynamic Combinatorial Chemistry is a complicated process, so instead of explaining how it works I will simply provide the bottom line. Once steroid chemists have invested the necessary time into the chemical strategy for DCC, hundreds of novel steroid compounds can be synthesized and tested within a matter of minutes. The entire process is orchestrated by computers. The pharmaceutical sector has recently employed this process, and steroid manufactures will soon follow suit, if they haven’t already.
