Bioisosterism: Quantitation of Structure and Property Effects

Abstract

The powerful concept of bioisosterism is presented as a method for selecting molecular groups for drug design and lead-compound development. Three group-structure characteristics are described for this purpose. The E-State value for an attached atom is used as a measure of electrotopological group impact. The volume of the group is estimated from counts of σ, π, and lone-pair n electrons, as embodied in the valence and simple connectivity δ values for atoms in the group. Polarity is described in terms of the polarity index Q_v. Specific examples are given for commonly used groups. Parameter spaces encoding these three attributes are presented as examples that may be used to guide bioisostere selection in late-stage drug-design procedures. The method presented here is of practical value in the decision processes of molecular modification.