The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA

The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA

The ability of microorganisms to degrade xenobiotics can be exploited to develop cost-effective and eco-friendly bioremediation technologies. Microorganisms can degrade almost all organic pollutants, but this process might be very slow in some cases. A promising way to enhance removal of recalcitran...

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Main Authors: Magdalena Urbaniak, Elżbieta Mierzejewska, Maciej Tankiewicz
Format: Article
Language:English
Published: PeerJ Inc. 2019-04-01
Series:PeerJ
Subjects:
Phenoxy herbicide
PSM
tfdA
MCPA
Biodegradation
Syringic acid
Online Access:https://peerj.com/articles/6745.pdf
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spelling doaj-8a7743669f454d578bb8432aad70dc1c2020-11-25T00:28:41ZengPeerJ Inc.PeerJ2167-83592019-04-017e674510.7717/peerj.6745The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPAMagdalena Urbaniak0Elżbieta Mierzejewska1Maciej Tankiewicz2Faculty of Food and Biochemical Technology, Department of Biochemistry and Microbiology, University of Chemistry and Technology Prague, Prague, Czech RepublicFaculty of Biology and Environmental Protection, Department of Applied Ecology, University of Lodz, Lodz, lodzkie, PolskaDepartment of Environmental Toxicology, Faculty of Health Sciences, Medical University of Gdańsk, Gdańsk, PolandThe ability of microorganisms to degrade xenobiotics can be exploited to develop cost-effective and eco-friendly bioremediation technologies. Microorganisms can degrade almost all organic pollutants, but this process might be very slow in some cases. A promising way to enhance removal of recalcitrant xenobiotics from the environment lies in the interactions between plant exudates such as plant secondary metabolites (PSMs) and microorganisms. Although there is a considerable body of evidence that PSMs can alter the microbial community composition and stimulate the microbial degradation of xenobiotics, their mechanisms of action remain poorly understood. With this in mind, our aim was to demonstrate that similarity between the chemical structures of PSMs and xenobiotics results in higher micropollutant degradation rates, and the occurrence of corresponding bacterial degradative genes. To verify this, the present study analyses the influence of syringic acid, a plant secondary metabolite, on the bacterial degradation of an herbicide, 4-chloro-2-methylphenoxyacetic acid (MCPA). In particular, the presence of appropriate MCPA degradative genes, MCPA removal efficiency and changes in samples phytotoxicity have been analyzed. Significant MCPA depletion was achieved in samples enriched with syringic acid. The results confirmed not only greater MCPA removal from the samples upon spiking with syringic acid, and thus decreased phytotoxicity, but also the presence of a greater number of genes responsible for MCPA biodegradation. 16S rRNA gene sequence analysis revealed ubiquitous enrichment of the β-proteobacteria Rhodoferax, Achromobacter, Burkholderia and Cupriavidus. The obtained results provide further confirmation that plant metabolites released into the rhizosphere can stimulate biodegradation of xenobiotics, including MCPA.https://peerj.com/articles/6745.pdfPhenoxy herbicidePSMtfdAMCPABiodegradationSyringic acid
collection DOAJ
language English
format Article
sources DOAJ
author Magdalena Urbaniak
Elżbieta Mierzejewska
Maciej Tankiewicz
spellingShingle Magdalena Urbaniak
Elżbieta Mierzejewska
Maciej Tankiewicz
The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA
PeerJ
Phenoxy herbicide
PSM
tfdA
MCPA
Biodegradation
Syringic acid
author_facet Magdalena Urbaniak
Elżbieta Mierzejewska
Maciej Tankiewicz
author_sort Magdalena Urbaniak
title The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA
title_short The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA
title_full The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA
title_fullStr The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA
title_full_unstemmed The stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, MCPA
title_sort stimulating role of syringic acid, a plant secondary metabolite, in the microbial degradation of structurally-related herbicide, mcpa
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2019-04-01
description The ability of microorganisms to degrade xenobiotics can be exploited to develop cost-effective and eco-friendly bioremediation technologies. Microorganisms can degrade almost all organic pollutants, but this process might be very slow in some cases. A promising way to enhance removal of recalcitrant xenobiotics from the environment lies in the interactions between plant exudates such as plant secondary metabolites (PSMs) and microorganisms. Although there is a considerable body of evidence that PSMs can alter the microbial community composition and stimulate the microbial degradation of xenobiotics, their mechanisms of action remain poorly understood. With this in mind, our aim was to demonstrate that similarity between the chemical structures of PSMs and xenobiotics results in higher micropollutant degradation rates, and the occurrence of corresponding bacterial degradative genes. To verify this, the present study analyses the influence of syringic acid, a plant secondary metabolite, on the bacterial degradation of an herbicide, 4-chloro-2-methylphenoxyacetic acid (MCPA). In particular, the presence of appropriate MCPA degradative genes, MCPA removal efficiency and changes in samples phytotoxicity have been analyzed. Significant MCPA depletion was achieved in samples enriched with syringic acid. The results confirmed not only greater MCPA removal from the samples upon spiking with syringic acid, and thus decreased phytotoxicity, but also the presence of a greater number of genes responsible for MCPA biodegradation. 16S rRNA gene sequence analysis revealed ubiquitous enrichment of the β-proteobacteria Rhodoferax, Achromobacter, Burkholderia and Cupriavidus. The obtained results provide further confirmation that plant metabolites released into the rhizosphere can stimulate biodegradation of xenobiotics, including MCPA.
topic Phenoxy herbicide
PSM
tfdA
MCPA
Biodegradation
Syringic acid
url https://peerj.com/articles/6745.pdf
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