For fluorescent assays, more compound interference is observed with blue fluorescent dyes (e.g. coumarin) than red fluorescent dyes (e.g. TexasRed) as many LMW compounds selleck inhibitor found in typical screening libraries do not show
fluorescence beyond ~550 nm ( Simeonov et al., 2008). The use of time-resolved-FRET (TR-FRET) can reduce compound fluorescence interference as fluorescence by typical LMW compounds has short fluorescent life-times. Specific recommendations have been described for setting-up TR-FRET assays to reduce compound interference ( Imbert et al., 2007). A number of different methods can be used to test for compound interference in an enzyme assay. In one method, the compound is added to the enzyme assay once the reaction has progressed to near completion which tests for compounds interfering with the assay signal ( Figure 8C). As mentioned throughout this review, another method involves using an orthogonal assay design
where the same assay is performed but with a different detection technology ( Thorne et al., 2010). A guideline for reporting HTS assay protocols has been suggested (Inglese et al., 2007). We provide an example of this format in Figure 9. In this case the critical liquid handling, incubation, reagent additions, check details and detection steps are noted on the top of the table with details provided at the bottom in the table “Note” section. Specific details around, for example substrate concentration relative to Km, can also be noted here but should be detailed in the text of the manuscript following the STRENDA guidelines ( http:/www.beilstein-institut.de/en/projects/strenda/guidelines/). Improvements in existing technologies include continuous read enzyme assays and dual labels allowing the detection of both substrate and product, as well as continue improvement of LC/MS technology to allow rapid and sensitive detection of products in a label-free mode. New detection technologies that should minimize interference by test compounds
include fluorescent lifetime (FLT) enough measurements (Moger et al., 2006). Fluorescent lifetime assays exploit the effect of nonradioactive decay mechanisms on the fluorophore׳s fluorescent lifetime. Additionally, although not covered in this review, there are an increasing number of cell-based designs to measure compound binding or enzyme inhibition in a cellular setting allowing for assaying enzymes in the cellular milieu which should improve the physiological relevance of the compounds uncovered. None of the authors have any conflict of interest. “
“The International Union of Biochemistry and Molecular Biology (IUBMB) oversees two areas of nomenclature that are central to the concerns of STRENDA (Tipton et al., 2014), classifying enzyme-catalysed reactions, and recommending symbols and terms used in enzyme kinetics.