Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients

Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients

Red maple leaf extracts (RME) were tested for their plant defense inducer (PDI) properties. Two extracts were obtained and compared by different approaches: RME1 using ethanol–water (30–70%, <i>v/v</i>, 0.5% HCl 1N) and RME2 using pure water. Both extracts titrated at 1.9 g L<sup>−...

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Main Authors: Elodie Peghaire, Samar Hamdache, Antonin Galien, Mohamad Sleiman, Alexandra ter Halle, Hicham El Alaoui, Ayhan Kocer, Claire Richard, Pascale Goupil
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Forests
Subjects:
alkaline hydrolysis
defense reactions
gallotannins
red maple leaf extract
tobacco
Online Access:https://www.mdpi.com/1999-4907/11/6/705
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spelling doaj-be661edb864f4f1f92c2e8ff066e51cf2020-11-25T03:37:52ZengMDPI AGForests1999-49072020-06-011170570510.3390/f11060705Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active IngredientsElodie Peghaire0Samar Hamdache1Antonin Galien2Mohamad Sleiman3Alexandra ter Halle4Hicham El Alaoui5Ayhan Kocer6Claire Richard7Pascale Goupil8UMR INRA 547 PIAF, Université Clermont Auvergne, 63178 Aubière, FranceUMR CNRS 6296 ICCF, Université Clermont Auvergne, 63178 Aubière, FranceUMR INRA 547 PIAF, Université Clermont Auvergne, 63178 Aubière, FranceUMR CNRS 6296 ICCF, Université Clermont Auvergne, 63178 Aubière, FranceUMR CNRS 5623 IMRCP, Université Paul Sabatier, 31062 Toulouse, FranceUMR CNRS 6023 LMGE, Université Clermont Auvergne, 63178 Aubière, FranceUMR CNRS/INSERM 6293 GReD, Université Clermont Auvergne, 63000 Clermont-Ferrand, FranceUMR CNRS 6296 ICCF, Université Clermont Auvergne, 63178 Aubière, FranceUMR INRA 547 PIAF, Université Clermont Auvergne, 63178 Aubière, FranceRed maple leaf extracts (RME) were tested for their plant defense inducer (PDI) properties. Two extracts were obtained and compared by different approaches: RME1 using ethanol–water (30–70%, <i>v/v</i>, 0.5% HCl 1N) and RME2 using pure water. Both extracts titrated at 1.9 g L<sup>−1</sup> in polyphenols and infiltrated into tobacco leaves efficiently induced hypersensitive reaction-like lesions with topical accumulation of auto-fluorescent compounds noted under UV and scopoletin titration assays. The antimicrobial marker <i>PR1</i>, β<sup>−1</sup>,3-glucanase <i>PR2</i>, chitinase <i>PR3,</i> and osmotin <i>PR5</i> target genes were all upregulated in tobacco leaves following RME1 treatment. The alkaline hydrolysis of RME1 and RME2 combined with HPLC titration of gallic acid revealed that gallate functions were present in both extracts at levels comprised between 185 and 318 mg L<sup>−1</sup>. HPLC-HR-MS analyses and glucose assay identified four gallate derivatives consisting of a glucose core linked to 5, 6, 7, and 8 gallate groups. These four galloyl glucoses possessed around 46% of total gallate functions. Their higher concentration in RME suggested that they may contribute significantly to PDI activity. These findings define the friendly galloyl glucose as a PDI and highlight a relevant methodology for combining plant assays and chemistry process to their potential quantification in crude natural extracts.https://www.mdpi.com/1999-4907/11/6/705alkaline hydrolysisdefense reactionsgallotanninsred maple leaf extracttobacco
collection DOAJ
language English
format Article
sources DOAJ
author Elodie Peghaire
Samar Hamdache
Antonin Galien
Mohamad Sleiman
Alexandra ter Halle
Hicham El Alaoui
Ayhan Kocer
Claire Richard
Pascale Goupil
spellingShingle Elodie Peghaire
Samar Hamdache
Antonin Galien
Mohamad Sleiman
Alexandra ter Halle
Hicham El Alaoui
Ayhan Kocer
Claire Richard
Pascale Goupil
Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients
Forests
alkaline hydrolysis
defense reactions
gallotannins
red maple leaf extract
tobacco
author_facet Elodie Peghaire
Samar Hamdache
Antonin Galien
Mohamad Sleiman
Alexandra ter Halle
Hicham El Alaoui
Ayhan Kocer
Claire Richard
Pascale Goupil
author_sort Elodie Peghaire
title Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients
title_short Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients
title_full Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients
title_fullStr Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients
title_full_unstemmed Inducing Plant Defense Reactions in Tobacco Plants with Phenolic-Rich Extracts from Red Maple Leaves: A Characterization of Main Active Ingredients
title_sort inducing plant defense reactions in tobacco plants with phenolic-rich extracts from red maple leaves: a characterization of main active ingredients
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2020-06-01
description Red maple leaf extracts (RME) were tested for their plant defense inducer (PDI) properties. Two extracts were obtained and compared by different approaches: RME1 using ethanol–water (30–70%, <i>v/v</i>, 0.5% HCl 1N) and RME2 using pure water. Both extracts titrated at 1.9 g L<sup>−1</sup> in polyphenols and infiltrated into tobacco leaves efficiently induced hypersensitive reaction-like lesions with topical accumulation of auto-fluorescent compounds noted under UV and scopoletin titration assays. The antimicrobial marker <i>PR1</i>, β<sup>−1</sup>,3-glucanase <i>PR2</i>, chitinase <i>PR3,</i> and osmotin <i>PR5</i> target genes were all upregulated in tobacco leaves following RME1 treatment. The alkaline hydrolysis of RME1 and RME2 combined with HPLC titration of gallic acid revealed that gallate functions were present in both extracts at levels comprised between 185 and 318 mg L<sup>−1</sup>. HPLC-HR-MS analyses and glucose assay identified four gallate derivatives consisting of a glucose core linked to 5, 6, 7, and 8 gallate groups. These four galloyl glucoses possessed around 46% of total gallate functions. Their higher concentration in RME suggested that they may contribute significantly to PDI activity. These findings define the friendly galloyl glucose as a PDI and highlight a relevant methodology for combining plant assays and chemistry process to their potential quantification in crude natural extracts.
topic alkaline hydrolysis
defense reactions
gallotannins
red maple leaf extract
tobacco
url https://www.mdpi.com/1999-4907/11/6/705
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