Hierarchical clustering of MS/MS spectra from the firefly metabolome identifies new lucibufagin compounds

Rawlinson, C. J.; Jones, Darcy A. B.; Rakshit, S.; Meka, Shiv; Moffat, Caroline S.; Moolhuijzen, Paula

doi:10.1038/s41598-020-63036-1

Cited by 16 publications

(16 citation statements)

References 26 publications

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“… 27 In addition, we employed the recently described BioDendro workflow, which enables hierarchical clustering of MS 2 spectra and presents the results as a tree. 28 After molecular networking, background and media subtraction, a total of 6260 compounds were detected ( Figure 2 A,B). The majority of these molecules were detected under all three culturing conditions, though distinct sets of metabolites were also found in each extract, with the OBA extract containing the highest number of unique metabolites ( Figure 2 B).…”

Section: Resultsmentioning

confidence: 99%

“…28 FBMN allows for the discrimination of isomers and quantitative interpretation of the molecular network, while BioDendro uses dynamic binning and hierarchical clustering of MS 2 spectra and can function as a complementary analysis to molecular networking. 27,28 Metabolites were annotated by matching the observed MS 2 spectra with reference spectra in the GNPS libraries 29 or using Network Annotation Propagation (NAP), 30 SIRIUS, 31 Met-Work, 32 or Competitive Fragmentation Modeling for Metabolite Identification 3.0 (CFM-ID 3.0). 33 ■ RESULTS AND DISCUSSION Genomic Analysis of Specialized Metabolite Biosynthetic Gene Clusters in S. scabiei.…”

Section: ■ Introductionmentioning

confidence: 99%

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Genomic and Metabolomic Analysis of the Potato Common Scab Pathogen Streptomyces scabiei

et al. 2021

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Streptomyces scabiei is a key causative agent of common scab disease, which causes significant economic losses to potato growers worldwide. This organism produces several phytotoxins that are known or suspected to contribute to host–pathogen interactions and disease development; however, the full metabolic potential of S. scabiei has not been previously investigated. In this study, we used a combined metabolomic and genomic approach to investigate the metabolites that are produced by S. scabiei . The genome sequence was analyzed using antiSMASH and DeepBGC to identify specialized metabolite biosynthetic gene clusters. Using untargeted liquid chromatography-coupled tandem mass spectrometry (LC-MS 2 ), the metabolic profile of S. scabiei was compared after cultivation on three different growth media. MS 2 data were analyzed using Feature-Based Molecular Networking and hierarchical clustering in BioDendro. Metabolites were annotated by performing a Global Natural Products Social Molecular Networking (GNPS) spectral library search or using Network Annotation Propagation, SIRIUS, MetWork, or Competitive Fragmentation Modeling for Metabolite Identification. Using this approach, we were able to putatively identify new analogues of known metabolites as well as molecules that were not previously known to be produced by S. scabiei . To our knowledge, this study represents the first global analysis of specialized metabolites that are produced by this important plant pathogen.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Genomic and Metabolomic Analysis of the Potato Common Scab Pathogen Streptomyces scabiei

et al. 2021

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“…The developments in metabolomics platforms enable large-scale MS/MS experiments containing thousands of distinct spectra from a single sample. These detected features and their MS/MS spectra can be used for matching to spectral libraries and can include indicative fragmentation patterns that provide information on the often yet unknown chemical structures that were fragmented [221,222]. However, this process is still cumbersome and laborious for large-scale data, particularly for plant metabolomics data which is vastly diverse in physiochemical properties [222,223].…”

Section: Large-scale Metabolite Annotationmentioning

confidence: 99%

“…These detected features and their MS/MS spectra can be used for matching to spectral libraries and can include indicative fragmentation patterns that provide information on the often yet unknown chemical structures that were fragmented [221,222]. However, this process is still cumbersome and laborious for large-scale data, particularly for plant metabolomics data which is vastly diverse in physiochemical properties [222,223]. Hence, we are currently witnessing the development of tools that can analyze such large-scale, complex metabolomic data using computational networking approaches such as molecular networking (MN), which provides visualization of all the detected features and their chemical relationships by grouping structurally similar features into a network to enable mining of the metabolome (Figure 4) [224][225][226].…”

Section: Large-scale Metabolite Annotationmentioning

confidence: 99%

Metabolomics-Guided Elucidation of Plant Abiotic Stress Responses in the 4IR Era: An Overview

et al. 2021

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Plants are constantly challenged by changing environmental conditions that include abiotic stresses. These are limiting their development and productivity and are subsequently threatening our food security, especially when considering the pressure of the increasing global population. Thus, there is an urgent need for the next generation of crops with high productivity and resilience to climate change. The dawn of a new era characterized by the emergence of fourth industrial revolution (4IR) technologies has redefined the ideological boundaries of research and applications in plant sciences. Recent technological advances and machine learning (ML)-based computational tools and omics data analysis approaches are allowing scientists to derive comprehensive metabolic descriptions and models for the target plant species under specific conditions. Such accurate metabolic descriptions are imperatively essential for devising a roadmap for the next generation of crops that are resilient to environmental deterioration. By synthesizing the recent literature and collating data on metabolomics studies on plant responses to abiotic stresses, in the context of the 4IR era, we point out the opportunities and challenges offered by omics science, analytical intelligence, computational tools and big data analytics. Specifically, we highlight technological advancements in (plant) metabolomics workflows and the use of machine learning and computational tools to decipher the dynamics in the chemical space that define plant responses to abiotic stress conditions.

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“…We use these molecular fingerprints to calculate pairwise distances between chemical features and hierarchically cluster the fingerprint vectors to generate a tree representing their chemical structural relationships. Although alternative approaches to hierarchically cluster features based on cosine similarity of fragmentation spectra exist [19][20][21] , we use molecular fingerprints predicted by CSI:FingerID for this. Previous work has shown that CSI:FingerID outperforms other tools for automatic in silico structural annotation 22 .…”

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confidence: 99%

Chemically informed analyses of metabolomics mass spectrometry data with Qemistree

et al. 2020

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This article is made publicly available in the institutional repository of Wageningen University and Research, under the terms of article 25fa of the Dutch Copyright Act, also known as the Amendment Taverne. This has been done with explicit consent by the author.Article 25fa states that the author of a short scientific work funded either wholly or partially by Dutch public funds is entitled to make that work publicly available for no consideration following a reasonable period of time after the work was first published, provided that clear reference is made to the source of the first publication of the work.This publication is distributed under The Association of Universities in the Netherlands (VSNU) 'Article 25fa implementation' project. In this project research outputs of researchers employed by Dutch Universities that comply with the legal requirements of Article 25fa of the Dutch Copyright Act are distributed online and free of cost or other barriers in institutional repositories. Research outputs are distributed six months after their first online publication in the original published version and with proper attribution to the source of the original publication.

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Hierarchical clustering of MS/MS spectra from the firefly metabolome identifies new lucibufagin compounds

Cited by 16 publications

References 26 publications

Genomic and Metabolomic Analysis of the Potato Common Scab Pathogen Streptomyces scabiei

Genomic and Metabolomic Analysis of the Potato Common Scab Pathogen Streptomyces scabiei

Metabolomics-Guided Elucidation of Plant Abiotic Stress Responses in the 4IR Era: An Overview

Chemically informed analyses of metabolomics mass spectrometry data with Qemistree

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