摘要:Graphical abstractDisplay OmittedAbstractIn medicinal chemistry and chemoinformatics, activity cliffs (ACs) are defined as pairs of structurally similar compounds that are active against the same target but have a large difference in potency. Accordingly, ACs are rich in structure-activity relationship (SAR) information, which rationalizes their relevance for medicinal chemistry. For identifying ACs, a compound similarity criterion and a potency difference criterion must be specified. So far a constant potency difference between AC partner compounds has mostly been set, e.g. 100-fold, irrespective of the specific activity (targets) of cliff-forming compounds. Herein, we introduce a computational methodology for AC identification and analysis that includes three novel components:•ACs are identified on the basis of variable target set-dependent potency difference criteria (a ‘target set’ represents a collection of compounds that are active against a given target protein).•ACs are extracted from computationally determined analog series (ASs) and consist of pairs of analogs with single or multiple substitution sites.•For multi-site ACs, a search for analogs with individual substitutions is performed to analyze their contributions to AC formation and determine if multi-site ACs can be represented by single-site ACs.
关键词:Compound structure and activity data;Computational analysis;Molecular similarity;Analog pairs;Potency value distributions;Potency differences;Substitution sites;Single-site activity cliffs;Multi-site activity cliffs;Structure-activity relationships
