plantMASST - Community-driven chemotaxonomic digitization of plants
Author:
Gomes Paulo Wender P.ORCID, Mannochio-Russo HelenaORCID, Schmid RobinORCID, Zuffa SimoneORCID, Damiani TitoORCID, Quiros-Guerrero Luis-ManuelORCID, Caraballo-Rodríguez Andrés MauricioORCID, Zhao Haoqi NinaORCID, Yang HeejungORCID, Xing ShipeiORCID, Charron-Lamoureux Vincent, Chigumba Desnor N.ORCID, Sedio Brian E., Myers Jonathan A.ORCID, Allard Pierre-MarieORCID, Harwood Thomas V.ORCID, Tamayo-Castillo Giselle, Kang Kyo BinORCID, Defossez EmmanuelORCID, Koolen Hector H. F.ORCID, da Silva Milton Nascimento, e Silva Consuelo Yumiko Yoshioka, Rasmann Sergio, Walker Tom W. N.ORCID, Glauser Gaëtan, Chaves-Fallas José MiguelORCID, David BrunoORCID, Kim HyunwooORCID, Lee Kyu Hyeong, Kim Myeong Ji, Choi Won Jun, Keum Young-SamORCID, de Lima Emilly J. S. P.ORCID, de Medeiros Lívia SomanORCID, Bataglion Giovana A., Costa Emmanoel V., da Silva Felipe M. A.ORCID, Carvalho Alice Rhelly V.ORCID, Reis José Diogo E.ORCID, Pamplona Sônia, Jeong EunahORCID, Lee Kyungha, Kim Geum JinORCID, Kil Yun-Seo, Nam Joo-WonORCID, Choi HyukjaeORCID, Han Yoo Kyong, Park Si Young, Lee Ki YongORCID, Hu Changling, Dong Yilun, Sang Shengmin, Morrison Colin R.ORCID, Borges Ricardo MoreiraORCID, Teixeira Andrew Magno, Lee Seo Yoon, Lee Bum Soo, Jeong Se Yun, Kim Ki HyunORCID, Rutz AdrianoORCID, Gaudry ArnaudORCID, Bruelhart EdouardORCID, Kappers Iris F.ORCID, Karlova RumyanaORCID, Meisenburg MaraORCID, Berdaguer Roland, Tello J. SebastiánORCID, Henderson DavidORCID, Cayola Leslie, Wright S. JosephORCID, Allen David N.ORCID, Anderson-Teixeira Kristina J.ORCID, Baltzer Jennifer L.ORCID, Lutz James A.ORCID, McMahon Sean M., Parker Geoffrey G., Parker John D.ORCID, Northen Trent R.ORCID, Bowen Benjamin P.ORCID, Pluskal TomášORCID, van der Hooft Justin J. J.ORCID, Carver Jeremy J.ORCID, Bandeira NunoORCID, Pullman Benjamin S.ORCID, Wolfender Jean-LucORCID, Kersten Roland D.ORCID, Wang Mingxun, Dorrestein Pieter C.
Abstract
AbstractUnderstanding the distribution of hundreds of thousands of plant metabolites across the plant kingdom presents a challenge. To address this, we curated publicly available LC-MS/MS data from 19,075 plant extracts and developed the plantMASST reference database encompassing 246 botanical families, 1,469 genera, and 2,793 species. This taxonomically focused database facilitates the exploration of plant-derived molecules using tandem mass spectrometry (MS/MS) spectra. This tool will aid in drug discovery, biosynthesis, (chemo)taxonomy, and the evolutionary ecology of herbivore interactions.
Publisher
Cold Spring Harbor Laboratory
|
|