Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences

Large-scale sequencing efforts have uncovered a large number of secondary metabolic pathways, but the chemicals they synthesise remain unknown. Here the authors present PRISM 4, which predicts the chemical structures encoded by microbial genome sequences, including all classes of bacterial antibioti...

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Autores principales: Michael A. Skinnider, Chad W. Johnston, Mathusan Gunabalasingam, Nishanth J. Merwin, Agata M. Kieliszek, Robyn J. MacLellan, Haoxin Li, Michael R. M. Ranieri, Andrew L. H. Webster, My P. T. Cao, Annabelle Pfeifle, Norman Spencer, Q. Huy To, Dan Peter Wallace, Chris A. Dejong, Nathan A. Magarvey
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/83e96992a8014b8c835cc9b340aa8822
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spelling oai:doaj.org-article:83e96992a8014b8c835cc9b340aa88222021-12-02T15:39:26ZComprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences10.1038/s41467-020-19986-12041-1723https://doaj.org/article/83e96992a8014b8c835cc9b340aa88222020-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-19986-1https://doaj.org/toc/2041-1723Large-scale sequencing efforts have uncovered a large number of secondary metabolic pathways, but the chemicals they synthesise remain unknown. Here the authors present PRISM 4, which predicts the chemical structures encoded by microbial genome sequences, including all classes of bacterial antibiotics in clinical use.Michael A. SkinniderChad W. JohnstonMathusan GunabalasingamNishanth J. MerwinAgata M. KieliszekRobyn J. MacLellanHaoxin LiMichael R. M. RanieriAndrew L. H. WebsterMy P. T. CaoAnnabelle PfeifleNorman SpencerQ. Huy ToDan Peter WallaceChris A. DejongNathan A. MagarveyNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-9 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Michael A. Skinnider
Chad W. Johnston
Mathusan Gunabalasingam
Nishanth J. Merwin
Agata M. Kieliszek
Robyn J. MacLellan
Haoxin Li
Michael R. M. Ranieri
Andrew L. H. Webster
My P. T. Cao
Annabelle Pfeifle
Norman Spencer
Q. Huy To
Dan Peter Wallace
Chris A. Dejong
Nathan A. Magarvey
Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
description Large-scale sequencing efforts have uncovered a large number of secondary metabolic pathways, but the chemicals they synthesise remain unknown. Here the authors present PRISM 4, which predicts the chemical structures encoded by microbial genome sequences, including all classes of bacterial antibiotics in clinical use.
format article
author Michael A. Skinnider
Chad W. Johnston
Mathusan Gunabalasingam
Nishanth J. Merwin
Agata M. Kieliszek
Robyn J. MacLellan
Haoxin Li
Michael R. M. Ranieri
Andrew L. H. Webster
My P. T. Cao
Annabelle Pfeifle
Norman Spencer
Q. Huy To
Dan Peter Wallace
Chris A. Dejong
Nathan A. Magarvey
author_facet Michael A. Skinnider
Chad W. Johnston
Mathusan Gunabalasingam
Nishanth J. Merwin
Agata M. Kieliszek
Robyn J. MacLellan
Haoxin Li
Michael R. M. Ranieri
Andrew L. H. Webster
My P. T. Cao
Annabelle Pfeifle
Norman Spencer
Q. Huy To
Dan Peter Wallace
Chris A. Dejong
Nathan A. Magarvey
author_sort Michael A. Skinnider
title Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
title_short Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
title_full Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
title_fullStr Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
title_full_unstemmed Comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
title_sort comprehensive prediction of secondary metabolite structure and biological activity from microbial genome sequences
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/83e96992a8014b8c835cc9b340aa8822
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