Correspondence:We introduce a web-enabled small-molecule mass spectrometry (MS) search engine. To date, no tool can query all the public small-molecule tandem MS data in metabolomics repositories, greatly limiting the utility of these resources in clinical, environmental and natural product applications. Therefore, we introduce a Mass Spectrometry Search Tool (MASST) (https://proteosafe-extensions.ucsd.edu/masst/), that enables the discovery of molecular relationships among accessible public metabolomics and natural product tandem mass spectrometry data (MS/MS).The ability to discover related sequences of proteins or genes in publicly accessible sequence data using Basic Local Alignment Search Tool (BLAST), connected to public sequence data repositories through a web interface (WebBLAST, https://blast.ncbi.nlm.nih.gov/Blast.cgi), was introduced in the 1990s. 1 It has garnered more than 138,159 citations according to Google Scholar, placing it among the most widely used bioinformatics tools. WebBLAST enabled detection of the number of sequences in public repositories related to a given query, the organisms in which those sequences occur, and the evolutionary and inferred functional relationships among related sequences. It therefore permitted a broad community to answer simple but scientifically compelling questions such as: Is a protein or DNA sequence common or rare? How is this sequence distributed among different kinds of organisms? What other sequences are related to this sequence (evolutionary variants, or new mutations, or synthetic constructs)? In the early days of making DNA or protein sequence data publicly available, the "metadata" (e.g., contextual information about the sample, population and location the sequence came from, and technical information about how it was produced) in the public repositories was limited and no standards existed. This is a situation similar to the current status of much of the mass spectrometry data in the public domain. However, when publicly deposited data has metadata available, such as organism, location of sampling, host phenotypes such as diseases, etc., it becomes possible to start building higherlevel hypotheses regarding the evolutionary, ecological or functional relationships among these DNA, RNA or protein sequences. The development of the ability to search data with added context continues to have profound impacts on fields including medicine, chemistry, genetics, molecular biology, genomics, microbiology, and ecology.Algorithms developed for mass spectrometry data, including molecular networking 2 and fragmentation trees 3 , enable similarity searches, while powerful metabolomics analysis software infrastructures, such as MS-DIAL 4 , MetaboAnalyst 5 , XCMS Online 6 , HMDB 7 , some of which have been available for over a decade, focus on annotation of MS/MS spectra or finding statistical relationships between molecular features. However, none of the existing tools enable searching against public data in repositories. Finding the distribution of specific data of i...
CARABALLO-RODRÍGUEZ, A. M. Elicitation of natural products biosynthesis from endophytic microorganisms´ interactions. 2016. 169 p. Doctoral Dissertation. School of Pharmaceutical Sciences of Ribeirão Preto -University of São Paulo, Ribeirão Preto, 2016. In order to continue with the study of natural products from previously isolated endophytes of the Brazilian medicinal plant Lychnophora ericoides, the main goal of this work focused on the metabolic exchange of endophytic microorganisms from this plant. As it has been demonstrated during the last years, elicitation of different molecules is consequence of microbial interactions, mainly due to the need to compete, survive and establish microbial communities in shared environments. Recent mass spectrometry related approaches, such as imaging and molecular networking, in combination with purification and structural elucidation were applied to the current study of the microbial interactions of endophytes. During this study, several chemical families were identified, such as polyene macrocycles, pyrroloindole alkaloids, leupeptins, angucyclines, siderophores, amongst others. Amongst the polyene macrocycles, the well-known antifungal amphotericin B was identified as a biosynthetic product of the endophytic actinobacteria Streptomyces albospinus RLe7. When S. albospinus RLe7 interacted with an endophytic fungus, Coniochaeta sp. FLe4, a red pigmentation was observed. A new fungal compound was detected from microbial interactions. Isolation and structure elucidation of this new compound enabled to demonstrate the elicitation of fungal secondary metabolites by amphotericin B, an actinobacterial metabolite. It was also demonstrated the elicitation of griseofulvin and its analogue dechlorogriseofulvin from another endophytic fungus, FLe9, as a consequence of exposition to amphotericin B. In addition, investigation of the chemical profile of another endophytic actinobacteria, S. mobaraensis RLe3, led to reveal this strain as angucycline-derivatives producer. Besides that, coculturing of this actinobacteria against Coniochaeta sp. FLe4 also demonstrated elicitation of angucycline analogues. In conclusion, this study demonstrated elicitation of natural products from microbial interactions as well as new compounds from endophytes from L. ericoides and contributed to the identification of microbial metabolites. RESUMO CARABALLO-RODRÍGUEZ, A. M. Eliciação da biossíntese de produtos naturais a partir da interação de microorganismos endofíticos. 2016. 169 f. Tese de doutorado, Faculdade de Ciências Farmacêuticas de Ribeirão Preto -Universidade de São Paulo, Ribeirão Preto, 2016. Com o propósito de continuar com os estudos de produtos naturais de microorganismos endofíticos da planta medicinal Brasileira Lychnophora ericoides, o principal objetivo desse trabalho focou-se no estudo da troca metabólica de microorganismos endofíticos dessa planta. Como tem sido demonstrado durante os últimos anos, a elicitação de diferentes compostos é consequência das interações microbianas, principalm...
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