The Fate of Microcystins in the Environment and Challenges for Monitoring

The Fate of Microcystins in the Environment and Challenges for Monitoring

Microcystins are secondary metabolites produced by cyanobacteria that act as hepatotoxins in higher organisms. These toxins can be altered through abiotic processes, such as photodegradation and adsorption, as well as through biological processes via metabolism and bacterial degradation. Some specie...

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Bibliographic Details
Main Authors: Justine R. Schmidt, Steven W. Wilhelm, Gregory L. Boyer
Format: Article
Language:English
Published: MDPI AG 2014-12-01
Series:Toxins
Subjects:
microcystins
food web
microbial degradation
metabolism
glutathione metabolic pathway
toxicokinetics
Online Access:http://www.mdpi.com/2072-6651/6/12/3354
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spelling doaj-9246797320954ceeac44b6ae499e0bda2020-11-24T22:54:32ZengMDPI AGToxins2072-66512014-12-016123354338710.3390/toxins6123354toxins6123354The Fate of Microcystins in the Environment and Challenges for MonitoringJustine R. Schmidt0Steven W. Wilhelm1Gregory L. Boyer2Department of Chemistry, College of Environmental Science and Forestry, State University of New York, Syracuse, NY 13210, USADepartment of Microbiology, University of Tennessee, Knoxville, TN 37996-0845, USADepartment of Chemistry, College of Environmental Science and Forestry, State University of New York, Syracuse, NY 13210, USAMicrocystins are secondary metabolites produced by cyanobacteria that act as hepatotoxins in higher organisms. These toxins can be altered through abiotic processes, such as photodegradation and adsorption, as well as through biological processes via metabolism and bacterial degradation. Some species of bacteria can degrade microcystins, and many other organisms metabolize microcystins into a series of conjugated products. There are toxicokinetic models used to examine microcystin uptake and elimination, which can be difficult to compare due to differences in compartmentalization and speciation. Metabolites of microcystins are formed as a detoxification mechanism, and little is known about how quickly these metabolites are formed. In summary, microcystins can undergo abiotic and biotic processes that alter the toxicity and structure of the microcystin molecule. The environmental impact and toxicity of these alterations and the metabolism of microcystins remains uncertain, making it difficult to establish guidelines for human health. Here, we present the current state of knowledge regarding the alterations microcystins can undergo in the environment.http://www.mdpi.com/2072-6651/6/12/3354microcystinsfood webmicrobial degradationmetabolismglutathione metabolic pathwaytoxicokinetics
collection DOAJ
language English
format Article
sources DOAJ
author Justine R. Schmidt
Steven W. Wilhelm
Gregory L. Boyer
spellingShingle Justine R. Schmidt
Steven W. Wilhelm
Gregory L. Boyer
The Fate of Microcystins in the Environment and Challenges for Monitoring
Toxins
microcystins
food web
microbial degradation
metabolism
glutathione metabolic pathway
toxicokinetics
author_facet Justine R. Schmidt
Steven W. Wilhelm
Gregory L. Boyer
author_sort Justine R. Schmidt
title The Fate of Microcystins in the Environment and Challenges for Monitoring
title_short The Fate of Microcystins in the Environment and Challenges for Monitoring
title_full The Fate of Microcystins in the Environment and Challenges for Monitoring
title_fullStr The Fate of Microcystins in the Environment and Challenges for Monitoring
title_full_unstemmed The Fate of Microcystins in the Environment and Challenges for Monitoring
title_sort fate of microcystins in the environment and challenges for monitoring
publisher MDPI AG
series Toxins
issn 2072-6651
publishDate 2014-12-01
description Microcystins are secondary metabolites produced by cyanobacteria that act as hepatotoxins in higher organisms. These toxins can be altered through abiotic processes, such as photodegradation and adsorption, as well as through biological processes via metabolism and bacterial degradation. Some species of bacteria can degrade microcystins, and many other organisms metabolize microcystins into a series of conjugated products. There are toxicokinetic models used to examine microcystin uptake and elimination, which can be difficult to compare due to differences in compartmentalization and speciation. Metabolites of microcystins are formed as a detoxification mechanism, and little is known about how quickly these metabolites are formed. In summary, microcystins can undergo abiotic and biotic processes that alter the toxicity and structure of the microcystin molecule. The environmental impact and toxicity of these alterations and the metabolism of microcystins remains uncertain, making it difficult to establish guidelines for human health. Here, we present the current state of knowledge regarding the alterations microcystins can undergo in the environment.
topic microcystins
food web
microbial degradation
metabolism
glutathione metabolic pathway
toxicokinetics
url http://www.mdpi.com/2072-6651/6/12/3354
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