Small Molecule in Situ Resin Capture Provides a Compound First Approach to Natural Product Discovery

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Jun 19

PMID 38898025

Authors

Alexander Bogdanov

Mariam N Salib

Alexander B Chase

Heinz Hammerlindl

Mitchell N Muskat

Stephanie Luedtke

Elany Barbosa da Silva

Anthony J ODonoghue

Lani F Wu

Steven J Altschuler

Tadeusz F Molinski

Paul R Jensen

Affiliations

Soon will be listed here.

Abstract

Culture-based microbial natural product discovery strategies fail to realize the extraordinary biosynthetic potential detected across earth's microbiomes. Here we introduce Small Molecule In situ Resin Capture (SMIRC), a culture-independent method to obtain natural products directly from the environments in which they are produced. We use SMIRC to capture numerous compounds including two new carbon skeletons that were characterized using NMR and contain structural features that are, to the best of our knowledge, unprecedented among natural products. Applications across diverse marine habitats reveal biome-specific metabolomic signatures and levels of chemical diversity in concordance with sequence-based predictions. Expanded deployments, in situ cultivation, and metagenomics facilitate compound discovery, enhance yields, and link compounds to candidate producing organisms, although microbial community complexity creates challenges for the later. This compound-first approach to natural product discovery provides access to poorly explored chemical space and has implications for drug discovery and the detection of chemically mediated biotic interactions.

Citing Articles

Advanced Technologies for Large Scale Supply of Marine Drugs.

Martinez H, Santos M, Pedraza L, Testera A Mar Drugs. 2025; 23(2).

PMID: 39997193 PMC: 11857447. DOI: 10.3390/md23020069.

Capture and Real-Time Enrichment of Marine Chemical Diversity.

Mauduit M, Derrien M, Grenier M, Greff S, Molinari S, Chevaldonne P ACS Cent Sci. 2023; 9(11):2084-2095.

PMID: 38033807 PMC: 10683479. DOI: 10.1021/acscentsci.3c00661.

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