Abstract
Pseudo-natural products (PNPs) combine fragments derived from NPs in ways that are not found in nature, and may lead to the discovery of novel chemotypes for unexpected targets or the identification of unprecedented bioactivities. PNPs have increasingly been explored in recent drug discovery programs, and are strongly enriched in clinical compounds. We describe how a large number of structurally different PNPs can be accessed readily and without the need to execute labor- and time intensive synthesis programs. We employed an improved version of the previously reported natural product fragment combination (NPFC) tool to analyze the full library of 3.5M synthetic small molecules and screening libraries from Enamine for PNP content, assessed the spatial complexity of Enamine-PNPs using the recently developed normalized Spatial Score (nSPS) and evaluated the bioactivity of a selected subset of Enamine-PNPs in the unbiased morphological cell painting assay. A major fraction (32%; 1.1 million compounds) of the Enamine library are PNPs which contain a significant number of compounds with unexpected and probably new bioactivity.
Supplementary materials
Title
Supporting Information Identification of Readily Available Pseudo-Natural Products
Description
Supporting information as mentined in the main text
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Title
Fragment combinations
Description
The hundred most common fragment combinations of the Enamine PNP dataset.
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Title
Cell painting profiles
Description
The Cell painting profiles containing 579 features for the 187 active measurements (44 active at 10µM, 143 active at 30µM), including structures encoded as SMILES.
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