A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis

SIMPLE SUMMARY: Bioassays can offset the limitations of traditional chemical analyses (time constraints, high cost, and limited detection of interactions) in monitoring water pollution. Euglena, a flagellate green alga, is an attractive experimental model organism that has been used for toxicity tes...

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Autores principales: Choi, Soyeon, Lee, Hojun, Lee, Min-Soo, Park, Joon Tae, Heynderickx, Philippe M., Wu, Di, Depuydt, Stephen, Asselman, Jana, Janssen, Colin, Häder, Donat P., Han, Taejun, Park, Jihae
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9687118/
https://www.ncbi.nlm.nih.gov/pubmed/36358319
http://dx.doi.org/10.3390/biology11111618
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author Choi, Soyeon
Lee, Hojun
Lee, Min-Soo
Park, Joon Tae
Heynderickx, Philippe M.
Wu, Di
Depuydt, Stephen
Asselman, Jana
Janssen, Colin
Häder, Donat P.
Han, Taejun
Park, Jihae
author_facet Choi, Soyeon
Lee, Hojun
Lee, Min-Soo
Park, Joon Tae
Heynderickx, Philippe M.
Wu, Di
Depuydt, Stephen
Asselman, Jana
Janssen, Colin
Häder, Donat P.
Han, Taejun
Park, Jihae
author_sort Choi, Soyeon
collection PubMed
description SIMPLE SUMMARY: Bioassays can offset the limitations of traditional chemical analyses (time constraints, high cost, and limited detection of interactions) in monitoring water pollution. Euglena, a flagellate green alga, is an attractive experimental model organism that has been used for toxicity testing for decades because it is easy to culture, grows rapidly, and responds quickly to environmental stresses. In the present study, we examined the effects of seven heavy metals in the native Korean E. agilis using six end points (motility, velocity, cell compactness, upward swimming, r-value, and orientation). The advantage of the ecotoxicity assay presented here is its rapidity. Unlike the usual 3–4 d of exposure time and work, this assay takes only 10 min to obtain results; moreover, it can be performed at room temperature under dark conditions. Therefore, this new method can be useful for the rapid toxicity screening of hazardous pollutants, as it may have operational advantages over test time. ABSTRACT: A chemical analysis of water quality cannot detect some toxicants due to time constraints, high costs, and limited interactions for detection. Bioassays would offer a complementary means to assess pollution levels in water. Euglena is a flagellate green alga and an excellent system for toxicity testing thanks to its ease of culture, rapid growth, and quick response to environmental stresses. Herein, we examined the sensitivity of E. agilis to seven heavy metals by analyzing six end-point parameters: motility, velocity, cell compactness, upward swimming, r-value, and alignment. Notably, the velocity of E. agilis was most sensitive to cadmium (96.28 mg·L(−1)), copper (6.51 mg·L(−1)), manganese (103.28 mg·L(−1)), lead (78.04 mg·L(−1)), and zinc (101.90 mg·L(−1)), while r-values were most sensitive to arsenic (12.84 mg·L(−1)) and mercury (4.26 mg·L(−1)). In this study, velocity and r-values are presented as useful biomarkers for the assessment of metal toxicity in Euglena. The metals As, Cd, Cu, and Pb were suitable for this test. The advantages of the ecotoxicity test are its rapidity: It takes 10 min to obtain results, as opposed to the typical 3–4 d of exposure time with intensive labor. Moreover, this test can be performed at room temperature under dark conditions.
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spelling pubmed-96871182022-11-25 A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis Choi, Soyeon Lee, Hojun Lee, Min-Soo Park, Joon Tae Heynderickx, Philippe M. Wu, Di Depuydt, Stephen Asselman, Jana Janssen, Colin Häder, Donat P. Han, Taejun Park, Jihae Biology (Basel) Article SIMPLE SUMMARY: Bioassays can offset the limitations of traditional chemical analyses (time constraints, high cost, and limited detection of interactions) in monitoring water pollution. Euglena, a flagellate green alga, is an attractive experimental model organism that has been used for toxicity testing for decades because it is easy to culture, grows rapidly, and responds quickly to environmental stresses. In the present study, we examined the effects of seven heavy metals in the native Korean E. agilis using six end points (motility, velocity, cell compactness, upward swimming, r-value, and orientation). The advantage of the ecotoxicity assay presented here is its rapidity. Unlike the usual 3–4 d of exposure time and work, this assay takes only 10 min to obtain results; moreover, it can be performed at room temperature under dark conditions. Therefore, this new method can be useful for the rapid toxicity screening of hazardous pollutants, as it may have operational advantages over test time. ABSTRACT: A chemical analysis of water quality cannot detect some toxicants due to time constraints, high costs, and limited interactions for detection. Bioassays would offer a complementary means to assess pollution levels in water. Euglena is a flagellate green alga and an excellent system for toxicity testing thanks to its ease of culture, rapid growth, and quick response to environmental stresses. Herein, we examined the sensitivity of E. agilis to seven heavy metals by analyzing six end-point parameters: motility, velocity, cell compactness, upward swimming, r-value, and alignment. Notably, the velocity of E. agilis was most sensitive to cadmium (96.28 mg·L(−1)), copper (6.51 mg·L(−1)), manganese (103.28 mg·L(−1)), lead (78.04 mg·L(−1)), and zinc (101.90 mg·L(−1)), while r-values were most sensitive to arsenic (12.84 mg·L(−1)) and mercury (4.26 mg·L(−1)). In this study, velocity and r-values are presented as useful biomarkers for the assessment of metal toxicity in Euglena. The metals As, Cd, Cu, and Pb were suitable for this test. The advantages of the ecotoxicity test are its rapidity: It takes 10 min to obtain results, as opposed to the typical 3–4 d of exposure time with intensive labor. Moreover, this test can be performed at room temperature under dark conditions. MDPI 2022-11-05 /pmc/articles/PMC9687118/ /pubmed/36358319 http://dx.doi.org/10.3390/biology11111618 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/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 (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Choi, Soyeon
Lee, Hojun
Lee, Min-Soo
Park, Joon Tae
Heynderickx, Philippe M.
Wu, Di
Depuydt, Stephen
Asselman, Jana
Janssen, Colin
Häder, Donat P.
Han, Taejun
Park, Jihae
A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis
title A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis
title_full A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis
title_fullStr A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis
title_full_unstemmed A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis
title_short A Ten-Minute Bioassay to Test Metal Toxicity with the Freshwater Flagellate Euglena agilis
title_sort ten-minute bioassay to test metal toxicity with the freshwater flagellate euglena agilis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9687118/
https://www.ncbi.nlm.nih.gov/pubmed/36358319
http://dx.doi.org/10.3390/biology11111618
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