METASPACE: A community-populated knowledge base of spatial metabolomes in health and disease-Reference-Cited by-同舟云学术

METASPACE: A community-populated knowledge base of spatial metabolomes in health and disease

Published:2019-02-03 Issue: Volume: Page:
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Alexandrov Theodore^ORCID,Ovchinnikova Katja,Palmer Andrew,Kovalev Vitaly,Tarasov Artem,Stuart Lachlan,Nigmetzianov Renat,Fay Dominik,Gaudin Mathieu,Lopez Cristina Gonzalez,Vetter Marina,Swales John,Bokhart Mark,Kompauer Mario,McKenzie James,Rappez Luca,Velickovic Dusan,Lavigne Regis,Zhang Guanshi,Thinagaran Dinaiz,Ruhland Elisa,Sans Marta,Triana Sergio,Sammour Denis Abu,Aboulmagd Sarah,Bagger Charlotte,Strittmatter Nicole,Rigopoulos Angelos,Gemperline Erin,Joensen Asta Maria,Geier Benedikt,Quiason Christine,Weaver Eric,Prasad Mridula,Balluff Benjamin,Nagornov Konstantin,Li Lingjun,Linscheid Michael,Hopf Carsten,Heintz Dimitri,Liebeke Manuel,Spengler Bernhard,Boughton Berin,Janfelt Christian,Sharma Kumar,Pineau Charles,Anderton Christopher,Ellis Shane,Becker Michael,Pánczél József,Violante Georges Da,Muddiman David,Goodwin Richard,Eberlin Livia,Takats Zoltan,Shahidi-Latham Sheerin,

Abstract

AbstractMetabolites, lipids, and other small molecules are key constituents of tissues supporting cellular programs in health and disease. Here, we present METASPACE, a community-populated knowledge base of spatial metabolomes from imaging mass spectrometry data. METASPACE is enabled by a high-performance engine for metabolite annotation in a confidence-controlled way that makes results comparable between experiments and laboratories. By sharing their results publicly, engine users continuously populate a knowledge base of annotated spatial metabolomes in tissues currently including over 3000 datasets from human cancer cohorts, whole-body sections of animal models, and various organs. The spatial metabolomes can be visualized, explored and shared using a web app as well as accessed programmatically for large-scale analysis. By using novel computational methods inspired by natural language processing, we illustrate that METASPACE provides molecular coverage beyond the capacity of any individual laboratory and opens avenues towards comprehensive metabolite atlases on the levels of tissues and organs.

Publisher

Cold Spring Harbor Laboratory

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