Abstract
Collections of chemical compounds, individually attached to unique DNA fragments serving as amplifiable identification bar codes, are generally referred to as "DNA-encoded chemical libraries". Such libraries can be used for the de novo isolation of binding molecules against target proteins of interest. Here, we describe the synthesis and use of a DNA-encoded library based on benzamidine analogues, which allowed the isolation of a trypsin inhibitor with an IC(50) value of 3.0 nM, thus representing a >10 000-fold potency improvement compared to the parental compound. The novel trypsin inhibitor displayed an excellent selectivity toward other serine proteases. This study indicates that DNA-encoded libraries can be used for the facile "affinity maturation" of suboptimal binding compounds, thus facilitating drug development.
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