Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production

In this study, endophytic bacteria belonging to the Bacillus genus were isolated from in vitro bulblets of Leucojum aestivum and their ability to produce Amaryllidaceae alkaloids was studied. Proton Nuclear Magnetic Resonance ((1)H NMR)-based metabolomics combined with multivariate data analysis was...

Descripción completa

Detalles Bibliográficos
Autores principales: Spina, Rosella, Saliba, Sahar, Dupire, François, Ptak, Agata, Hehn, Alain, Piutti, Séverine, Poinsignon, Sophie, Leclerc, Sebastien, Bouguet-Bonnet, Sabine, Laurain-Mattar, Dominique
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7916811/
https://www.ncbi.nlm.nih.gov/pubmed/33578992
http://dx.doi.org/10.3390/ijms22041773
_version_ 1783657562239926272
author Spina, Rosella
Saliba, Sahar
Dupire, François
Ptak, Agata
Hehn, Alain
Piutti, Séverine
Poinsignon, Sophie
Leclerc, Sebastien
Bouguet-Bonnet, Sabine
Laurain-Mattar, Dominique
author_facet Spina, Rosella
Saliba, Sahar
Dupire, François
Ptak, Agata
Hehn, Alain
Piutti, Séverine
Poinsignon, Sophie
Leclerc, Sebastien
Bouguet-Bonnet, Sabine
Laurain-Mattar, Dominique
author_sort Spina, Rosella
collection PubMed
description In this study, endophytic bacteria belonging to the Bacillus genus were isolated from in vitro bulblets of Leucojum aestivum and their ability to produce Amaryllidaceae alkaloids was studied. Proton Nuclear Magnetic Resonance ((1)H NMR)-based metabolomics combined with multivariate data analysis was chosen to compare the metabolism of this plant (in vivo bulbs, in vitro bulblets) with those of the endophytic bacteria community. Primary metabolites were quantified by quantitative (1)H NMR (qNMR) method. The results showed that tyrosine, one precursor of the Amaryllidaceae alkaloid biosynthesis pathway, was higher in endophytic extract compared to plant extract. In total, 22 compounds were identified including five molecules common to plant and endophyte extracts (tyrosine, isoleucine, valine, fatty acids and tyramine). In addition, endophytic extracts were analyzed using Liquid Chromatography-Mass Spectrometry (LC-MS) and Gas Chromatography-Mass Spectrometry (GC-MS) for the identification of compounds in very low concentrations. Five Amaryllidaceae alkaloids were detected in the extracts of endophytic bacteria. Lycorine, previously detected by (1)H NMR, was confirmed with LC-MS analysis. Tazettine, pseudolycorine, acetylpseudolycorine, 1,2-dihydro-chlidanthine were also identified by LC-MS using the positive ionization mode or by GC-MS. In addition, 11 primary metabolites were identified in the endophytic extracts such as tyramine, which was obtained by decarboxylation of tyrosine. Thus, Bacillus sp. isolated from L. aestivum bulblets synthesized some primary and specialized metabolites in common with the L. aestivum plant. These endophytic bacteria are an interesting new approach for producing the Amaryllidaceae alkaloid such as lycorine.
format Online
Article
Text
id pubmed-7916811
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-79168112021-03-01 Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production Spina, Rosella Saliba, Sahar Dupire, François Ptak, Agata Hehn, Alain Piutti, Séverine Poinsignon, Sophie Leclerc, Sebastien Bouguet-Bonnet, Sabine Laurain-Mattar, Dominique Int J Mol Sci Article In this study, endophytic bacteria belonging to the Bacillus genus were isolated from in vitro bulblets of Leucojum aestivum and their ability to produce Amaryllidaceae alkaloids was studied. Proton Nuclear Magnetic Resonance ((1)H NMR)-based metabolomics combined with multivariate data analysis was chosen to compare the metabolism of this plant (in vivo bulbs, in vitro bulblets) with those of the endophytic bacteria community. Primary metabolites were quantified by quantitative (1)H NMR (qNMR) method. The results showed that tyrosine, one precursor of the Amaryllidaceae alkaloid biosynthesis pathway, was higher in endophytic extract compared to plant extract. In total, 22 compounds were identified including five molecules common to plant and endophyte extracts (tyrosine, isoleucine, valine, fatty acids and tyramine). In addition, endophytic extracts were analyzed using Liquid Chromatography-Mass Spectrometry (LC-MS) and Gas Chromatography-Mass Spectrometry (GC-MS) for the identification of compounds in very low concentrations. Five Amaryllidaceae alkaloids were detected in the extracts of endophytic bacteria. Lycorine, previously detected by (1)H NMR, was confirmed with LC-MS analysis. Tazettine, pseudolycorine, acetylpseudolycorine, 1,2-dihydro-chlidanthine were also identified by LC-MS using the positive ionization mode or by GC-MS. In addition, 11 primary metabolites were identified in the endophytic extracts such as tyramine, which was obtained by decarboxylation of tyrosine. Thus, Bacillus sp. isolated from L. aestivum bulblets synthesized some primary and specialized metabolites in common with the L. aestivum plant. These endophytic bacteria are an interesting new approach for producing the Amaryllidaceae alkaloid such as lycorine. MDPI 2021-02-10 /pmc/articles/PMC7916811/ /pubmed/33578992 http://dx.doi.org/10.3390/ijms22041773 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Spina, Rosella
Saliba, Sahar
Dupire, François
Ptak, Agata
Hehn, Alain
Piutti, Séverine
Poinsignon, Sophie
Leclerc, Sebastien
Bouguet-Bonnet, Sabine
Laurain-Mattar, Dominique
Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production
title Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production
title_full Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production
title_fullStr Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production
title_full_unstemmed Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production
title_short Molecular Identification of Endophytic Bacteria in Leucojum aestivum In Vitro Culture, NMR-Based Metabolomics Study and LC-MS Analysis Leading to Potential Amaryllidaceae Alkaloid Production
title_sort molecular identification of endophytic bacteria in leucojum aestivum in vitro culture, nmr-based metabolomics study and lc-ms analysis leading to potential amaryllidaceae alkaloid production
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7916811/
https://www.ncbi.nlm.nih.gov/pubmed/33578992
http://dx.doi.org/10.3390/ijms22041773
work_keys_str_mv AT spinarosella molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT salibasahar molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT dupirefrancois molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT ptakagata molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT hehnalain molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT piuttiseverine molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT poinsignonsophie molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT leclercsebastien molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT bouguetbonnetsabine molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction
AT laurainmattardominique molecularidentificationofendophyticbacteriainleucojumaestivuminvitroculturenmrbasedmetabolomicsstudyandlcmsanalysisleadingtopotentialamaryllidaceaealkaloidproduction

Ejemplares similares