Therefore, high-throughput enzymatic assays for identification of

Therefore, high-throughput enzymatic assays for identification of modulators www.selleckchem.com/screening/tyrosine-kinase-inhibitor-library.html must adhere to stringent requirements

that surpass those of traditional bench-top activity assays. The components of the system must be stable over the time course of the reaction, often up to hours, and not deteriorate or otherwise be impacted by the liquid dispensers or additional equipment employed for automation. However, whether the assay is to be used for bench top or HTS use, of central importance is obtaining a fundamental understanding of the enzymology and biochemistry of the target because this information dictates the quality of the assay and the type of inhibitors that can be identified by HTS. Biochemical assay development begins with a purified or semi-purified enzyme preparation that demonstrates catalytic activity on a relevant substrate in a cell-free context. Often, literature surrounding homologous enzymes or enzymes catalyzing similar reactions can be used as a guide for setting up initial activity assays, providing insight into initial test conditions such as buffer and salt concentration, pH, cofactor requirements, etc. From these FG4592 preliminary experiments, many parameters must be considered to ultimately achieve a

robust and sensitive assay suitable for use in compound screening and drug discovery efforts. Of primary importance is determining the Michaelis–Menten steady state kinetic parameters (Km and kcat) of the enzyme for the substrate(s) consumed in the reaction ( Figure 2) ( Copeland, 2003). The Michaelis–Menten constants serve to anchor the assay among all of the variations tested during assay optimization and are critical in the interpretation of

IC50s determined for inhibitors of the enzyme assay. They can also help to elucidate the specific binding order of substrates in multi-substrate reactions and provide a means to compare the activity of multiple batches of the enzyme as well as the activity of similar enzymes on the same substrate. In addition, these values are a necessity in the development of a compound screening assay because they directly Succinyl-CoA relate to the modes of inhibition that can be detected with a given concentration of substrate ( Copeland, 2003). Methodology and application of Michaelis–Menten kinetic parameters will not be discussed herein; however Copeland presents a thorough review of these concepts as applied to drug discovery ( Copeland, 2005). Instead, we will address in detail those assay parameters that should be evaluated in the transition from an active enzyme preparation to a HTS-compatible assay. At the heart of an in vitro biochemical enzyme assay for drug discovery is the form of the enzyme to be targeted.

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