Structure-based molecular networking is useful as a dereplication strategy to identify known molecules, unknown close analogues, or compound families. On the other hand, the ligand fishing assay is a remarkable alternative to accelerate the screening process and to overcome the drawbacks of laborious experiments usually adopted in natural product research. The combination of these approaches contributes to high productivity in disclosing active metabolites and a decrease in lead time identification. To provide a valuable data base for the alkaloids of A. salzmannii bark herein we disclose thirty-one isoquinoline alkaloids including benzyltetrahydroisoquinolines, aporphines, proaporphines, and protoberberines. Among these, twenty-six have not been described for A. salzmannii including the unprecedented alkaloid N,O-dimethylcoclaurine N-oxide. In addition, norcoclaurine (1), norreticuline (13), N,O-dimethylcoclaurine N-oxide (15), and N-acetylasimilobine (24) are now reported for the first time as ligand for acetylcholinesterase.
Keywords: Affinity assay; Immobilized enzyme; Molecular networking.
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