Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS

Annual ryegrass toxicity (ARGT) is an often-fatal poisoning of livestock that consume annual ryegrass infected by the bacterium Rathayibacter toxicus. This bacterium is carried into the ryegrass by a nematode, Anguina funesta, and produces toxins within seed galls that develop during the flowering t...

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Published in:Molecules
Main Authors: Pushpendra Koli, Manjree Agarwal, David Kessell, Shalini Mahawar, Xin Du, Yonglin Ren, Simon J. McKirdy
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2023
Subjects:
annual ryegrass
ARGT
bacteria
DI-SPME
galls
GC-MS
metabolites
nematode
toxicity ryegrass
Carbonic acid
Online Access:https://doi.org/10.3390/molecules28020828
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spelling ftmdpi:oai:mdpi.com:/1420-3049/28/2/828/ 2023-08-20T04:05:53+02:00 Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS Pushpendra Koli Manjree Agarwal David Kessell Shalini Mahawar Xin Du Yonglin Ren Simon J. McKirdy agris 2023-01-13 application/pdf https://doi.org/10.3390/molecules28020828 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/molecules28020828 https://creativecommons.org/licenses/by/4.0/ Molecules; Volume 28; Issue 2; Pages: 828 annual ryegrass ARGT bacteria DI-SPME galls GC-MS metabolites nematode toxicity ryegrass Text 2023 ftmdpi https://doi.org/10.3390/molecules28020828 2023-08-01T08:17:48Z Annual ryegrass toxicity (ARGT) is an often-fatal poisoning of livestock that consume annual ryegrass infected by the bacterium Rathayibacter toxicus. This bacterium is carried into the ryegrass by a nematode, Anguina funesta, and produces toxins within seed galls that develop during the flowering to seed maturity stages of the plant. The actual mechanism of biochemical transformation of healthy seeds to nematode and bacterial gall-infected seeds remains unclear and no clear-cut information is available on what type of volatile organic compounds accumulate in the respective galls. Therefore, to fill this research gap, the present study was designed to analyze the chemical differences among nematode galls (A. funesta), bacterial galls (R. toxicus) and healthy seeds of annual ryegrass (Lolium rigidum) by using direct immersion solid-phase microextraction (DI-SPME) coupled with gas chromatography–mass spectrometry (GC-MS). The method was optimized and validated by testing its linearity, sensitivity, and reproducibility. Fifty-seven compounds were identified from all three sources (nematode galls, bacterial galls and healthy seed), and 48 compounds were found to be present at significantly different (p < 0.05) levels in the three groups. Five volatile organic compounds (hexanedioic acid, bis(2-ethylhexyl) ester), (carbonic acid, but-2-yn-1-yl eicosyl ester), (fumaric acid, 2-ethylhexyl tridec-2-yn-1-yl ester), (oct-3-enoylamide, N-methyl-N-undecyl) and hexacosanoic acid are the most frequent indicators of R. toxicus bacterial infection in ryegrass, whereas the presence of 15-methylnonacosane, 13-methylheptacosane, ethyl hexacosyl ether, heptacosyl acetate and heptacosyl trifluoroacetate indicates A. funesta nematode infestation. Metabolites occurring in both bacterial and nematode galls included batilol (stearyl monoglyceride) and 9-octadecenoic acid (Z)-, tetradecyl ester. Among the chemical functional group, esters, fatty acids, and alcohols together contributed more than 70% in healthy seed, whereas this ... Text Carbonic acid MDPI Open Access Publishing Molecules 28 2 828
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic annual ryegrass
ARGT
bacteria
DI-SPME
galls
GC-MS
metabolites
nematode
toxicity ryegrass
spellingShingle annual ryegrass
ARGT
bacteria
DI-SPME
galls
GC-MS
metabolites
nematode
toxicity ryegrass
Pushpendra Koli
Manjree Agarwal
David Kessell
Shalini Mahawar
Xin Du
Yonglin Ren
Simon J. McKirdy
Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS
topic_facet annual ryegrass
ARGT
bacteria
DI-SPME
galls
GC-MS
metabolites
nematode
toxicity ryegrass
description Annual ryegrass toxicity (ARGT) is an often-fatal poisoning of livestock that consume annual ryegrass infected by the bacterium Rathayibacter toxicus. This bacterium is carried into the ryegrass by a nematode, Anguina funesta, and produces toxins within seed galls that develop during the flowering to seed maturity stages of the plant. The actual mechanism of biochemical transformation of healthy seeds to nematode and bacterial gall-infected seeds remains unclear and no clear-cut information is available on what type of volatile organic compounds accumulate in the respective galls. Therefore, to fill this research gap, the present study was designed to analyze the chemical differences among nematode galls (A. funesta), bacterial galls (R. toxicus) and healthy seeds of annual ryegrass (Lolium rigidum) by using direct immersion solid-phase microextraction (DI-SPME) coupled with gas chromatography–mass spectrometry (GC-MS). The method was optimized and validated by testing its linearity, sensitivity, and reproducibility. Fifty-seven compounds were identified from all three sources (nematode galls, bacterial galls and healthy seed), and 48 compounds were found to be present at significantly different (p < 0.05) levels in the three groups. Five volatile organic compounds (hexanedioic acid, bis(2-ethylhexyl) ester), (carbonic acid, but-2-yn-1-yl eicosyl ester), (fumaric acid, 2-ethylhexyl tridec-2-yn-1-yl ester), (oct-3-enoylamide, N-methyl-N-undecyl) and hexacosanoic acid are the most frequent indicators of R. toxicus bacterial infection in ryegrass, whereas the presence of 15-methylnonacosane, 13-methylheptacosane, ethyl hexacosyl ether, heptacosyl acetate and heptacosyl trifluoroacetate indicates A. funesta nematode infestation. Metabolites occurring in both bacterial and nematode galls included batilol (stearyl monoglyceride) and 9-octadecenoic acid (Z)-, tetradecyl ester. Among the chemical functional group, esters, fatty acids, and alcohols together contributed more than 70% in healthy seed, whereas this ...
format Text
author Pushpendra Koli
Manjree Agarwal
David Kessell
Shalini Mahawar
Xin Du
Yonglin Ren
Simon J. McKirdy
author_facet Pushpendra Koli
Manjree Agarwal
David Kessell
Shalini Mahawar
Xin Du
Yonglin Ren
Simon J. McKirdy
author_sort Pushpendra Koli
title Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS
title_short Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS
title_full Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS
title_fullStr Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS
title_full_unstemmed Metabolite Variation between Nematode and Bacterial Seed Galls in Comparison to Healthy Seeds of Ryegrass Using Direct Immersion Solid-Phase Microextraction (DI-SPME) Coupled with GC-MS
title_sort metabolite variation between nematode and bacterial seed galls in comparison to healthy seeds of ryegrass using direct immersion solid-phase microextraction (di-spme) coupled with gc-ms
publisher Multidisciplinary Digital Publishing Institute
publishDate 2023
url https://doi.org/10.3390/molecules28020828
op_coverage agris
genre Carbonic acid
genre_facet Carbonic acid
op_source Molecules; Volume 28; Issue 2; Pages: 828
op_relation https://dx.doi.org/10.3390/molecules28020828
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/molecules28020828
container_title Molecules
container_volume 28
container_issue 2
container_start_page 828
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