Eric J. N. Helfrich scite author profile

The potential of the diverse chemistries present in natural products (NP) for biotechnology and medicine remains untapped because NP databases are not searchable with raw data and the NP community has no way to share data other than in published papers. Although mass spectrometry techniques are well-suited to high-throughput characterization of natural products, there is a pressing need for an infrastructure to enable sharing and curation of data. We present Global Natural Products Social molecular networking (GNPS, http://gnps.ucsd.edu), an open-access knowledge base for community wide organization and sharing of raw, processed or identified tandem mass (MS/MS) spectrometry data. In GNPS crowdsourced curation of freely available community-wide reference MS libraries will underpin improved annotations. Data-driven social-networking should facilitate identification of spectra and foster collaborations. We also introduce the concept of ‘living data’ through continuous reanalysis of deposited data.

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Minimum Information about a Biosynthetic Gene cluster

Medema

et al. 2015

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An environmental bacterial taxon with a large and distinct metabolic repertoire

Wilson

Mori

Rückert

et al. 2014

Nature

522

550

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Biosynthesis of polyketides by trans-AT polyketide synthases

2016

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Metabolic and evolutionary origin of actin-binding polyketides from diverse organisms

et al. 2015

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Actin-targeting macrolides comprise a large, structurally diverse group of cytotoxins isolated from remarkably dissimilar micro- and macroorganisms. In spite of their disparate origins and structures, many of these compounds bind actin at the same site and exhibit structural relationships reminiscent of modular, combinatorial drug libraries. Here we investigate biosynthesis and evolution of three compound groups: misakinolides, scytophycin-type compounds and luminaolides. For misakinolides from the sponge Theonella swinhoei WA, our data suggest production by an uncultivated 'Entotheonella' symbiont, further supporting the relevance of these bacteria as sources of bioactive polyketides and peptides in sponges. Insights into misakinolide biosynthesis permitted targeted genome mining for other members, providing a cyanobacterial luminaolide producer as the first cultivated source for this dimeric compound family. The data indicate that this polyketide family is bacteria-derived and that the unusual macrolide diversity is the result of combinatorial pathway modularity for some compounds and of convergent evolution for others.

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A global metagenomic map of urban microbiomes and antimicrobial resistance

Danko

Bezdan²,

Afshin³

et al. 2021

Cell

185

146

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antiSMASH 7.0: new and improved predictions for detection, regulation, chemical structures and visualisation

et al. 2023

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Microorganisms produce small bioactive compounds as part of their secondary or specialised metabolism. Often, such metabolites have antimicrobial, anticancer, antifungal, antiviral or other bio-activities and thus play an important role for applications in medicine and agriculture. In the past decade, genome mining has become a widely-used method to explore, access, and analyse the available biodiversity of these compounds. Since 2011, the ‘antibiotics and secondary metabolite analysis shell—antiSMASH’ (https://antismash.secondarymetabolites.org/) has supported researchers in their microbial genome mining tasks, both as a free to use web server and as a standalone tool under an OSI-approved open source licence. It is currently the most widely used tool for detecting and characterising biosynthetic gene clusters (BGCs) in archaea, bacteria, and fungi. Here, we present the updated version 7 of antiSMASH. antiSMASH 7 increases the number of supported cluster types from 71 to 81, as well as containing improvements in the areas of chemical structure prediction, enzymatic assembly-line visualisation and gene cluster regulation.

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Automated structure prediction of trans-acyltransferase polyketide synthase products

et al. 2019

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Bacterial trans -acyltransferase polyketide synthases ( trans -AT PKSs) are among the most complex known enzymes from secondary metabolism and are responsible for the biosynthesis of highly diverse bioactive polyketides. However, most of these metabolites remain uncharacterized, since trans -AT PKSs frequently Occur in poorly studied microbes and feature a remarkable array of non-canonical biosynthetic components with poorly understood functions. As a consequence, genome-guided natural product identification has been challenging. To enable de novo structural predictions for trans -AT PKS-derived polyketides, we developed the Trans -AT PKS Polyketide Predictor (TransATor). TransATor is a versatile bio- and chemoinformatics web application that suggests informative chemical structures for even highly aberrant trans -AT PKS biosynthetic gene clusters, thus permitting hypothesis-based, targeted biotechnological discovery and biosynthetic studies. We demonstrate the applicative scope in several examples, including the characterization of new variants of bioactive natural products as well as structurally novel polyketides from unusual bacterial sources.

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Eric J. N. Helfrich

Sharing and community curation of mass spectrometry data with Global Natural Products Social Molecular Networking

Minimum Information about a Biosynthetic Gene cluster

An environmental bacterial taxon with a large and distinct metabolic repertoire

Biosynthesis of polyketides by trans-AT polyketide synthases

Metabolic and evolutionary origin of actin-binding polyketides from diverse organisms

A global metagenomic map of urban microbiomes and antimicrobial resistance

antiSMASH 7.0: new and improved predictions for detection, regulation, chemical structures and visualisation

Automated structure prediction of trans-acyltransferase polyketide synthase products

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