Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb

Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb

The taxonomic classification of the genus Vernonia Schreb is complex and, as yet, unclear. We here report the use of untargeted metabolomics approaches, followed by multivariate analyses methods and a phytochemical characterization of ten Vernonia species. Metabolic fingerprints were obtained by accurate mass measurements and used to determine the phytochemical similarities and differences between species through multivariate analyses approaches. Principal component analysis based on the relative levels of 528 metabolites, indicated that the ten species could be clustered into four groups. Thereby, V. polyanthes was the only species with presence of flavones chrysoeriol-7-O-glycuronyl, acacetin-7-O-glycuronyl and sesquiterpenes lactones piptocarphin A and piptocarphin B, while glaucolide A was detected in both V. brasiliana and V. polyanthes, separating these species from the two other species of the Vernonanthura group. Species from the Lessingianthus group were unique in showing a positive response in the foam test, suggesting the presence of saponins, which could be confirmed by metabolite annotation. V. rufogrisea showed a great variety of sesquiterpene lactones, placing this species into a separate group. Species within the Chrysolaena group were unique in accumulating clovamide. Our results of LC-MS-based profiling combined with multivariate analyses suggest that metabolomics approaches, such as untargeted LC-MS, may be potentially used as a large-scale chemotaxonomical tool, in addition to classical morphological and cytotaxonomical approaches, in order to facilitate taxonomical classifications.

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Main Authors: Martucci, M.E.P., de Vos, R.C.H., Carollo, C.A.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:amygdalina, chlorogenic acids, compositae, ericoides mart. asteraceae, flavonoids, identification, leaves, mass-spectrometry, saponins, sesquiterpene lactones,
Online Access:https://research.wur.nl/en/publications/metabolomics-as-a-potential-chemotaxonomical-tool-application-in-
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spelling dig-wur-nl-wurpubs-4549122024-08-14 Martucci, M.E.P. de Vos, R.C.H. Carollo, C.A. Article/Letter to editor PLoS ONE 9 (2014) 4 ISSN: 1932-6203 Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb 2014 The taxonomic classification of the genus Vernonia Schreb is complex and, as yet, unclear. We here report the use of untargeted metabolomics approaches, followed by multivariate analyses methods and a phytochemical characterization of ten Vernonia species. Metabolic fingerprints were obtained by accurate mass measurements and used to determine the phytochemical similarities and differences between species through multivariate analyses approaches. Principal component analysis based on the relative levels of 528 metabolites, indicated that the ten species could be clustered into four groups. Thereby, V. polyanthes was the only species with presence of flavones chrysoeriol-7-O-glycuronyl, acacetin-7-O-glycuronyl and sesquiterpenes lactones piptocarphin A and piptocarphin B, while glaucolide A was detected in both V. brasiliana and V. polyanthes, separating these species from the two other species of the Vernonanthura group. Species from the Lessingianthus group were unique in showing a positive response in the foam test, suggesting the presence of saponins, which could be confirmed by metabolite annotation. V. rufogrisea showed a great variety of sesquiterpene lactones, placing this species into a separate group. Species within the Chrysolaena group were unique in accumulating clovamide. Our results of LC-MS-based profiling combined with multivariate analyses suggest that metabolomics approaches, such as untargeted LC-MS, may be potentially used as a large-scale chemotaxonomical tool, in addition to classical morphological and cytotaxonomical approaches, in order to facilitate taxonomical classifications. en application/pdf https://research.wur.nl/en/publications/metabolomics-as-a-potential-chemotaxonomical-tool-application-in- 10.1371/journal.pone.0093149 https://edepot.wur.nl/308454 amygdalina chlorogenic acids compositae ericoides mart. asteraceae flavonoids identification leaves mass-spectrometry saponins sesquiterpene lactones https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic amygdalina
chlorogenic acids
compositae
ericoides mart. asteraceae
flavonoids
identification
leaves
mass-spectrometry
saponins
sesquiterpene lactones
amygdalina
chlorogenic acids
compositae
ericoides mart. asteraceae
flavonoids
identification
leaves
mass-spectrometry
saponins
sesquiterpene lactones
spellingShingle amygdalina
chlorogenic acids
compositae
ericoides mart. asteraceae
flavonoids
identification
leaves
mass-spectrometry
saponins
sesquiterpene lactones
amygdalina
chlorogenic acids
compositae
ericoides mart. asteraceae
flavonoids
identification
leaves
mass-spectrometry
saponins
sesquiterpene lactones
Martucci, M.E.P.
de Vos, R.C.H.
Carollo, C.A.
Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb
description The taxonomic classification of the genus Vernonia Schreb is complex and, as yet, unclear. We here report the use of untargeted metabolomics approaches, followed by multivariate analyses methods and a phytochemical characterization of ten Vernonia species. Metabolic fingerprints were obtained by accurate mass measurements and used to determine the phytochemical similarities and differences between species through multivariate analyses approaches. Principal component analysis based on the relative levels of 528 metabolites, indicated that the ten species could be clustered into four groups. Thereby, V. polyanthes was the only species with presence of flavones chrysoeriol-7-O-glycuronyl, acacetin-7-O-glycuronyl and sesquiterpenes lactones piptocarphin A and piptocarphin B, while glaucolide A was detected in both V. brasiliana and V. polyanthes, separating these species from the two other species of the Vernonanthura group. Species from the Lessingianthus group were unique in showing a positive response in the foam test, suggesting the presence of saponins, which could be confirmed by metabolite annotation. V. rufogrisea showed a great variety of sesquiterpene lactones, placing this species into a separate group. Species within the Chrysolaena group were unique in accumulating clovamide. Our results of LC-MS-based profiling combined with multivariate analyses suggest that metabolomics approaches, such as untargeted LC-MS, may be potentially used as a large-scale chemotaxonomical tool, in addition to classical morphological and cytotaxonomical approaches, in order to facilitate taxonomical classifications.
format Article/Letter to editor
topic_facet amygdalina
chlorogenic acids
compositae
ericoides mart. asteraceae
flavonoids
identification
leaves
mass-spectrometry
saponins
sesquiterpene lactones
author Martucci, M.E.P.
de Vos, R.C.H.
Carollo, C.A.
author_facet Martucci, M.E.P.
de Vos, R.C.H.
Carollo, C.A.
author_sort Martucci, M.E.P.
title Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb
title_short Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb
title_full Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb
title_fullStr Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb
title_full_unstemmed Metabolomics as a Potential Chemotaxonomical Tool: Application in the Genus Vernonia Schreb
title_sort metabolomics as a potential chemotaxonomical tool: application in the genus vernonia schreb
url https://research.wur.nl/en/publications/metabolomics-as-a-potential-chemotaxonomical-tool-application-in-
work_keys_str_mv AT martuccimep metabolomicsasapotentialchemotaxonomicaltoolapplicationinthegenusvernoniaschreb
AT devosrch metabolomicsasapotentialchemotaxonomicaltoolapplicationinthegenusvernoniaschreb
AT carolloca metabolomicsasapotentialchemotaxonomicaltoolapplicationinthegenusvernoniaschreb
_version_ 1813201511589609472

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