35 research outputs found

    Linking genomics and metabolomics to chart specialized metabolic diversity

    Get PDF
    Microbial and plant specialized metabolites constitute an immense chemical diversity, and play key roles in mediating ecological interactions between organisms. Also referred to as natural products, they have been widely applied in medicine, agriculture, cosmetic and food industries. Traditionally, the main discovery strategies have centered around the use of activity-guided fractionation of metabolite extracts. Increasingly, omics data is being used to complement this, as it has the potential to reduce rediscovery rates, guide experimental work towards the most promising metabolites, and identify enzymatic pathways that enable their biosynthetic production. In recent years, genomic and metabolomic analyses of specialized metabolic diversity have been scaled up to study thousands of samples simultaneously. Here, we survey data analysis technologies that facilitate the effective exploration of large genomic and metabolomic datasets, and discuss various emerging strategies to integrate these two types of omics data in order to further accelerate discovery

    Metabolomic Fingerprinting of Salinispora From Atlantic Oceanic Islands

    Get PDF
    Salinispora (Micromonosporaceae) is an obligate marine bacterium genus consisting of three species that share over 99% 16S rRNA identity. The genome and biosynthetic pathways of the members of this genus have been widely investigated due to their production of species-specific metabolites. However, despite the species’ high genetic similarity, site-specific secondary metabolic gene clusters have been found in Salinispora strains collected at different locations. Therefore, exploring the metabolic expression of Salinispora recovered from different sites may furnish insights into their environmental adaptation or their chemical communication and, further, may lead to the discovery of new natural products. We describe the first occurrence of Salinispora strains in sediments from the Saint Peter and Saint Paul Archipelago (a collection of islets in Brazil) in the Atlantic Ocean, and we investigate the metabolic profiles of these strains by employing mass-spectrometry-based metabolomic approaches, including molecular networking from the Global Natural Products Social Molecular Networking platform. Furthermore, we analyze data from Salinispora strains recovered from sediments from the Madeira Archipelago (Portugal, Macaronesia) in order to provide a wider metabolomic investigation of Salinispora strains from the Atlantic Oceanic islands. Overall, our study evidences a broader geographic influence on the secondary metabolism of Salinispora than was previously proposed. Still, some biosynthetic gene clusters, such as those corresponding to typical chemical signatures of S. arenicola, like saliniketals and rifamycins, are highly conserved among the assessed strains

    A community resource for paired genomic and metabolomic data mining

    Get PDF
    Genomics and metabolomics are widely used to explore specialized metabolite diversity. The Paired Omics Data Platform is a community initiative to systematically document links between metabolome and (meta)genome data, aiding identification of natural product biosynthetic origins and metabolite structures.Peer reviewe

    microbeMASST: A Taxonomically-informed Mass Spectrometry Search Tool for Microbial Metabolomics Data

    Get PDF
    microbeMASST, a taxonomically informed mass spectrometry (MS) search tool, tackles limited microbial metabolite annotation in untargeted metabolomics experiments. Leveraging a curated database of >60,000 microbial monocultures, users can search known and unknown MS/MS spectra and link them to their respective microbial producers via MS/MS fragmentation patterns. Identification of microbe-derived metabolites and relative producers without a priori knowledge will vastly enhance the understanding of microorganisms’ role in ecology and human health

    A Taxonomically-informed Mass Spectrometry Search Tool for Microbial Metabolomics Data

    Get PDF
    MicrobeMASST, a taxonomically-informed mass spectrometry (MS) search tool, tackles limited microbial metabolite annotation in untargeted metabolomics experiments. Leveraging a curated database of >60,000 microbial monocultures, users can search known and unknown MS/MS spectra and link them to their respective microbial producers via MS/MS fragmentation patterns. Identification of microbial-derived metabolites and relative producers, without a priori knowledge, will vastly enhance the understanding of microorganisms’ role in ecology and human health

    MassIVE MSV000090878 - Shortcourse IberoAmerican 2022

    No full text

    MassIVE MSV000090694 - Short Course_Chemical_Biology - Unifesp

    No full text

    Integrating Molecular Network and Culture Media Variation to Explore the Production of Bioactive Metabolites by Vibrio diabolicus A1SM3

    No full text
    10 páginasVibrio diabolicus A1SM3 strain was isolated from a sediment sample from Manaure Solar Saltern in La Guajira and the produced crude extracts have shown antibacterial activity against methicillin-resistant Staphylococcus aureus and cytotoxic activity against human lung cell line. Thus, the aim of this research was to identify the main compound responsible for the biological activity observed and to systematically study how each carbon and nitrogen source in the growth media, and variation of the salinity, affect its production. For the characterization of the bioactive metabolites, 15 fractions obtained from Vibrio diabolicus A1SM3 crude extract were analyzed by HPLC-MS/MS and their activity was established. The bioactive fractions were dereplicated with Antibase and Marinlit databases, which combined with nuclear magnetic resonance (NMR) spectra and fragmentation by MS/MS, led to the identification of 2,2-di(3-indolyl)-3-indolone (isotrisindoline), an indole-derivative antibiotic, previously isolated from marine organisms. The influence of the variations of the culture media in isotrisindoline production was established by molecular network and MZmine showing that the media containing starch and peptone at 7% NaCl was the best culture media to produce it. Also, polyhydroxybutyrates (PHB) identification was established by MS/MS mainly in casamino acids media, contributing to the first report on PHB production by this strain

    beta-(1,3)-Glucanases Fúngicas: Produção e Aplicações Biotecnológicas.

    No full text
    beta-1,3-Glucanases são enzimas que hidrolisam ligações glicosídicas do tipo beta-1,3 presentes em beta-D-glucanas, liberando glucose como produto principal. Estas enzimas são produzidas por fungos filamentosos e leveduriformes, assim como bactérias, apresentando amplas aplicações biotecnológicas. O objetivo do presente trabalho foi revisar a literatura publicada sobre beta-1,3-glucanases fúngicas, enfatizando-se suas funções nos micro-organismos, alguns parâmetros utilizados para a determinação da atividade enzimática, substratos utilizados e condições de cultivo para a sua produção. Também foram relatadas aplicações destas enzimas na obtenção de oligossacarídeos bioativos, na caracterização da parede celular de micro-organismos, no controle biológico de patógenos de algumas plantas, como aditivos em rações para animais, além de sua adição em vinhos para melhorar as características organolépticas

    Tunicates: A model organism to investigate the effects of associated-microbiota on the production of pharmaceuticals

    No full text
    Ascidians are marine invertebrates closely related to vertebrates. These animals have been studied to address complex processes, including evolution of the immune system and developmental biology. As holobionts, housing millions of bacteria in a close relationship that drives adaptive fitness to environmental conditions, ascidians are successful invaders and dominant components of the benthic communities. Further, tunicates and their associated microbiota are recognized as producers of chemical structures with pharmacological potential, and over 1000 such molecules have been described so far. This review covers aspects of ascidian biology that make them promising model organisms in various fields and important for drug discovery
    corecore