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Preece EP, Otten TG, Cooke J. Use of multiple sampling techniques for cyanobacteria and cyanotoxin monitoring in the Sacramento-San Joaquin Delta under different hydrologic regimes. MARINE POLLUTION BULLETIN 2024; 205:116585. [PMID: 38878417 DOI: 10.1016/j.marpolbul.2024.116585] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 05/07/2024] [Revised: 06/06/2024] [Accepted: 06/08/2024] [Indexed: 07/24/2024]
Abstract
Cyanobacteria harmful algal blooms (CHABs) are a growing water quality problem in the upper San Francisco Estuary (California), also known as the Sacramento-San Joaquin Delta. We conducted cyanobacteria and cyanotoxin monitoring from 2020 to 2023, which spanned California's driest consecutive 3-year period and one of the wettest years on record (2023). To assess the impact of CHABs over this range of hydrologic conditions, we monitored invasive Asian Clams (Corbicula fluminea) for microcystin contamination and used molecular tools (qPCR and sequencing) to characterize cyanobacteria in the water column. We also used solid phase adsorption toxin tracking (SPATT) samplers to track microcystins (MCs) and other cyanotoxins in 2023. During the drought years, record breaking MCs, in excess of 1000 μg/L, were documented in water grab samples and Asian clams also accumulated higher MCs relative to the wet year. However, MCs were present in Asian clams during the entire study period. SPATT's confirmed MC presence during wet 2023 and sequencing results corroborated the integrative sampler findings. Yet, no MC was detected in water grab samples at our primary sampling sites during the drought year of 2022 or the wet year of 2023. This highlights the importance of using multiple sampling modalities to provide a more accurate assessment of MC contamination, especially in large estuaries where traditional discrete monitoring can easily miss episodic and transient CHAB events.
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Affiliation(s)
- Ellen P Preece
- California Department of Water Resources, 3500 Industrial Blvd, West Sacramento, CA 95691, United States of America; Robertson-Bryan, Inc., 3100 Zinfandel Drive, St 300, Rancho Cordova, CA, United States of America.
| | - Timothy G Otten
- Bend Genetics, LLC., 107 Scripps Drive St 210. Sacramento, CA, United States of America
| | - Janis Cooke
- Central Valley Regional Water Quality Control Board, 11020 Sun Center Drive, St 200, Rancho Cordova, CA, United States of America
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Saleem F, Atrache R, Jiang JL, Tran KL, Li E, Paschos A, Edge TA, Schellhorn HE. Characterization of Taxonomic and Functional Dynamics Associated with Harmful Algal Bloom Formation in Recreational Water Ecosystems. Toxins (Basel) 2024; 16:263. [PMID: 38922157 PMCID: PMC11209277 DOI: 10.3390/toxins16060263] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/22/2024] [Revised: 06/02/2024] [Accepted: 06/04/2024] [Indexed: 06/27/2024] Open
Abstract
Harmful algal bloom (HAB) formation leads to the eutrophication of water ecosystems and may render recreational lakes unsuitable for human use. We evaluated the applicability and comparison of metabarcoding, metagenomics, qPCR, and ELISA-based methods for cyanobacteria/cyanotoxin detection in bloom and non-bloom sites for the Great Lakes region. DNA sequencing-based methods robustly identified differences between bloom and non-bloom samples (e.g., the relative prominence of Anabaena and Planktothrix). Shotgun sequencing strategies also identified the enrichment of metabolic genes typical of cyanobacteria in bloom samples, though toxin genes were not detected, suggesting deeper sequencing or PCR methods may be needed to detect low-abundance toxin genes. PCR and ELISA indicated microcystin levels and microcystin gene copies were significantly more abundant in bloom sites. However, not all bloom samples were positive for microcystin, possibly due to bloom development by non-toxin-producing species. Additionally, microcystin levels were significantly correlated (positively) with microcystin gene copy number but not with total cyanobacterial 16S gene copies. In summary, next-generation sequencing-based methods can identify specific taxonomic and functional targets, which can be used for absolute quantification methods (qPCR and ELISA) to augment conventional water monitoring strategies.
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Affiliation(s)
| | | | | | | | | | | | | | - Herb E. Schellhorn
- Department of Biology, McMaster University, 1280 Main St W., Hamilton, ON L8S 4L8, Canada; (F.S.); (R.A.); (J.L.J.); (K.L.T.); (E.L.); (A.P.); (T.A.E.)
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3
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Varriale F, Tartaglione L, Zervou SK, Miles CO, Mazur-Marzec H, Triantis TM, Kaloudis T, Hiskia A, Dell'Aversano C. Untargeted and targeted LC-MS and data processing workflow for the comprehensive analysis of oligopeptides from cyanobacteria. CHEMOSPHERE 2023; 311:137012. [PMID: 36397634 DOI: 10.1016/j.chemosphere.2022.137012] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 04/28/2022] [Revised: 09/26/2022] [Accepted: 10/23/2022] [Indexed: 06/16/2023]
Abstract
Cyanobacteria produce a plethora of structurally diverse bioactive secondary metabolites, including cyanotoxins which pose a serious threat to humans and other living organisms worldwide. Currently, a wide variety of mass spectrometry-based methods for determination of microcystins (MCs), the most commonly occurring and studied class of cyanotoxins, have been developed and employed for research and monitoring purposes. The scarcity of commercially available reference materials, together with the ever-growing range of mass spectrometers and analytical approaches, make the accuracy of quantitative analyses a critical point to be carefully investigated in view of a reliable risk evaluation. This study reports, a comparative investigation of the qualitative and quantitative MCs profile obtained using targeted and untargeted liquid chromatography-mass spectrometry approaches for the analyses of cyanobacterial biomass from Lake Kastoria, Greece. Comparison of the total MCs content measured by the two approaches showed good correlation, with variations in the range of 3.8-13.2%. In addition, the implementation of an analytical workflow on a hybrid linear ion trap/orbitrap mass spectrometer is described, based on combining data-dependent acquisition and a powerful database of cyanobacterial metabolites (CyanoMetDB) for the annotation of known and discovery of new cyanopeptides. This untargeted strategy proved highly effective for the identification of MCs, microginins, anabaenopeptins, and micropeptins. The systematic interpretation of the acquired fragmentation patterns allowed the elucidation of two new MC structural variants, MC-PrhcysR and MC-Prhcys(O)R, and proposal of structures for two new microginins, isomeric cyanostatin B and MG 821A, and three isomeric micropeptins at m/z 846.4715, 846.4711 and 846.4723.
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Affiliation(s)
- Fabio Varriale
- University of Napoli Federico II, Department of Pharmacy, School of Medicine and Surgery, Via D. Montesano 49, 80131, Napoli, Italy
| | - Luciana Tartaglione
- University of Napoli Federico II, Department of Pharmacy, School of Medicine and Surgery, Via D. Montesano 49, 80131, Napoli, Italy; CoNISMa - National Inter-University Consortium for Marine Sciences, Piazzale Flaminio 9, 00196, Rome, Italy.
| | - Sevasti-Kiriaki Zervou
- Laboratory of Photo-Catalytic Processes and Environmental Chemistry, Institute of Nanoscience and Nanotechnology (INN), National Center for Scientific Research "Demokritos", Patriarchou Grigoriou E & 27 Neapoleos Str, 15341 Agia Paraskevi, Athens, Greece
| | - Christopher O Miles
- Biotoxin Metrology, National Research Council Canada, 1411 Oxford Street, Nova Scotia, Canada
| | - Hanna Mazur-Marzec
- Division of Marine Biotechnology, Faculty of Oceanography and Geography, University of Gdańsk, Poland
| | - Theodoros M Triantis
- Laboratory of Photo-Catalytic Processes and Environmental Chemistry, Institute of Nanoscience and Nanotechnology (INN), National Center for Scientific Research "Demokritos", Patriarchou Grigoriou E & 27 Neapoleos Str, 15341 Agia Paraskevi, Athens, Greece
| | - Triantafyllos Kaloudis
- Laboratory of Photo-Catalytic Processes and Environmental Chemistry, Institute of Nanoscience and Nanotechnology (INN), National Center for Scientific Research "Demokritos", Patriarchou Grigoriou E & 27 Neapoleos Str, 15341 Agia Paraskevi, Athens, Greece
| | - Anastasia Hiskia
- Laboratory of Photo-Catalytic Processes and Environmental Chemistry, Institute of Nanoscience and Nanotechnology (INN), National Center for Scientific Research "Demokritos", Patriarchou Grigoriou E & 27 Neapoleos Str, 15341 Agia Paraskevi, Athens, Greece
| | - Carmela Dell'Aversano
- University of Napoli Federico II, Department of Pharmacy, School of Medicine and Surgery, Via D. Montesano 49, 80131, Napoli, Italy; CoNISMa - National Inter-University Consortium for Marine Sciences, Piazzale Flaminio 9, 00196, Rome, Italy
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4
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Turner AD, Beach DG, Foss A, Samdal IA, Løvberg KLE, Waack J, Edwards C, Lawton LA, Dean KJ, Maskrey BH, Lewis AM. A Feasibility Study into the Production of a Mussel Matrix Reference Material for the Cyanobacterial Toxins Microcystins and Nodularins. Toxins (Basel) 2022; 15:27. [PMID: 36668847 PMCID: PMC9867187 DOI: 10.3390/toxins15010027] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/16/2022] [Revised: 12/15/2022] [Accepted: 12/23/2022] [Indexed: 01/03/2023] Open
Abstract
Microcystins and nodularins, produced naturally by certain species of cyanobacteria, have been found to accumulate in aquatic foodstuffs such as fish and shellfish, resulting in a risk to the health of the seafood consumer. Monitoring of toxins in such organisms for risk management purposes requires the availability of certified matrix reference materials to aid method development, validation and routine quality assurance. This study consequently targeted the preparation of a mussel tissue reference material incurred with a range of microcystin analogues and nodularins. Nine targeted analogues were incorporated into the material as confirmed through liquid chromatography with tandem mass spectrometry (LC-MS/MS), with an additional 15 analogues detected using LC coupled to non-targeted high resolution mass spectrometry (LC-HRMS). Toxins in the reference material and additional source tissues were quantified using LC-MS/MS, two different enzyme-linked immunosorbent assay (ELISA) methods and with an oxidative-cleavage method quantifying 3-methoxy-2-methyl-4-phenylbutyric acid (MMPB). Correlations between the concentrations quantified using the different methods were variable, likely relating to differences in assay cross-reactivities and differences in the abilities of each method to detect bound toxins. A consensus concentration of total soluble toxins determined from the four independent test methods was 2425 ± 575 µg/kg wet weight. A mean 43 ± 9% of bound toxins were present in addition to the freely extractable soluble form (57 ± 9%). The reference material produced was homogenous and stable when stored in the freezer for six months without any post-production stabilization applied. Consequently, a cyanotoxin shellfish reference material has been produced which demonstrates the feasibility of developing certified seafood matrix reference materials for a large range of cyanotoxins and could provide a valuable future resource for cyanotoxin risk monitoring, management and mitigation.
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Affiliation(s)
- Andrew D. Turner
- Centre for Environment Fisheries and Aquaculture Science, Barrack Road, Weymouth DT4 8UB, UK
| | - Daniel G. Beach
- Biotoxin Metrology, National Research Council Canada, Halifax, NS B3H 3Z1, Canada
| | - Amanda Foss
- Greenwater Laboratories, 205 Zeagler Drive, Suite 302, Palatka, FL 32177, USA
| | | | | | - Julia Waack
- Centre for Environment Fisheries and Aquaculture Science, Barrack Road, Weymouth DT4 8UB, UK
- CyanoSol, School of Pharmacy and Life Sciences, Robert Gordon University, Aberdeen AB10 7GJ, UK
| | - Christine Edwards
- CyanoSol, School of Pharmacy and Life Sciences, Robert Gordon University, Aberdeen AB10 7GJ, UK
| | - Linda A. Lawton
- CyanoSol, School of Pharmacy and Life Sciences, Robert Gordon University, Aberdeen AB10 7GJ, UK
| | - Karl J. Dean
- Centre for Environment Fisheries and Aquaculture Science, Barrack Road, Weymouth DT4 8UB, UK
| | - Benjamin H. Maskrey
- Centre for Environment Fisheries and Aquaculture Science, Barrack Road, Weymouth DT4 8UB, UK
| | - Adam M. Lewis
- Centre for Environment Fisheries and Aquaculture Science, Barrack Road, Weymouth DT4 8UB, UK
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5
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Cianci-Gaskill JA, Knott KK, O'Hearn R, Argerich A, Niswonger D, Wenzel J, Whittier JB, North RL. Microcystin accumulation in Sportfish from an agricultural reservoir differs among feeding guild, tissue type, and time of sampling. AQUATIC TOXICOLOGY (AMSTERDAM, NETHERLANDS) 2022; 250:106242. [PMID: 35878488 DOI: 10.1016/j.aquatox.2022.106242] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 10/14/2021] [Revised: 06/20/2022] [Accepted: 07/12/2022] [Indexed: 06/15/2023]
Abstract
Cyanobacterial blooms sometimes create secondary metabolites that can be transferred between trophic levels and accumulate in fish, but little is known about what time of year fish are most susceptible. Here, we examine microcystin in the muscle, liver, and kidney of bluegill and largemouth bass from an agricultural reservoir over 12 months. We identify which fish characteristics and water parameters best explain microcystin accumulation in fish tissues. Microcystin in bluegill was significantly higher than largemouth bass. In both species, microcystin was highest in livers (bluegill mean = 57.6 ng g - 1, largemouth bass mean = 71.8 ng g - 1 wet weight [ww]), then kidneys (bluegill mean = 27.1, largemouth bass mean = 22.7 ng g - 1 ww), followed by muscles (bluegill mean = 7.6, largemouth bass mean = 5.7 ng g - 1 ww). Adult bluegill feed on benthic macroinvertebrates and zooplankton, which may explain their higher microcystin concentrations compared to largemouth bass, which are primarily piscivorous. Harvest date emerged as the best predictor of microcystin in muscles and kidneys, with the highest concentrations occurring in April. Microcystin in water also emerged as a significant predictor, albeit much lower than harvest date, suggesting that low but persistent microcystin concentrations in water may result in accumulation of this cyanotoxin in fish. This study is the first to examine microcystin in fish from the North American Great Plains and one of only 5 studies that investigate microcystin in bluegill and largemouth bass. Additional investigation into the relationship between cyanobacteria and fish health is warranted, especially during spring when fish microcystin concentrations were highest.
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Affiliation(s)
- Jacob A Cianci-Gaskill
- School of Natural Resources, College of Agriculture, Food, and Natural Resources, University of Missouri, 103 Anheuser-Busch Natural Resources Building, Columbia, MO, United States.
| | - Katrina K Knott
- Central Regional Office and Conservation Research Center, Missouri Department of Conservation, 3500 East Gans Road, MO, United States
| | - Rebecca O'Hearn
- Central Regional Office and Conservation Research Center, Missouri Department of Conservation, 3500 East Gans Road, MO, United States
| | - Alba Argerich
- School of Natural Resources, College of Agriculture, Food, and Natural Resources, University of Missouri, 103 Anheuser-Busch Natural Resources Building, Columbia, MO, United States
| | - Darby Niswonger
- Central Regional Office and Conservation Research Center, Missouri Department of Conservation, 3500 East Gans Road, MO, United States
| | - Jeff Wenzel
- Bureau of Environmental Epidemiology, Missouri Department of Health and Senior Services, 930 Wildwood Drive, Jefferson City, MO, United States
| | - Joanna B Whittier
- School of Natural Resources, College of Agriculture, Food, and Natural Resources, University of Missouri, 103 Anheuser-Busch Natural Resources Building, Columbia, MO, United States
| | - Rebecca L North
- School of Natural Resources, College of Agriculture, Food, and Natural Resources, University of Missouri, 103 Anheuser-Busch Natural Resources Building, Columbia, MO, United States
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6
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Shartau RB, Snyman HN, Turcotte L, McCarron P, Bradshaw JC, Johnson SC. Acute microcystin exposure induces reversible histopathological changes in Chinook Salmon (Oncorhynchus tshawytscha) and Atlantic Salmon (Salmo salar). JOURNAL OF FISH DISEASES 2022; 45:729-742. [PMID: 35235682 DOI: 10.1111/jfd.13599] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 12/27/2021] [Revised: 02/13/2022] [Accepted: 02/14/2022] [Indexed: 06/14/2023]
Abstract
Atlantic Salmon (Salmo salar) and Chinook Salmon (Oncorhynchus tshawytscha) develop a severe liver disease called net-pen liver disease (NPLD), which is characterized by hepatic lesions that include megalocytosis and loss of gross liver structure. Based on studies where salmonids have been exposed to microcystin (MC) via intraperitoneal injection, NPLD is believed to be caused by MC exposure, a hepatotoxin produced by cyanobacteria. Despite the link between MC and NPLD, it remains uncertain if environmentally relevant MC exposure is responsible for NPLD. To determine if we could produce histopathology consistent with NPLD, we compared the response of Atlantic and Chinook Salmon sub-lethal MC exposure. Salmon were orally gavaged with saline or MC containing algal paste and sampled over 2 weeks post-exposure. Liver lesions appeared by 6 h but were resolved 2-weeks post-exposure; histopathological changes observed in other tissues were not as widespread, nor was their severity as great as those in the liver. There was no evidence for NPLD due to the absence of hepatic megalocytosis. These results indicate that the development of NPLD is not due to acute MC exposure but may be associated with higher MC concentration occurring in food, long-term exposure through drinking of contaminated seawater and/or interactions with other marine toxins.
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Affiliation(s)
- Ryan B Shartau
- Pacific Biological Station, Fisheries and Oceans Canada, Nanaimo, British Columbia, Canada
- Department of Biology, The University of Texas at Tyler, Tyler, Texas, USA
| | - Heindrich N Snyman
- Animal Health Laboratory, University of Guelph, Kemptville, Ontario, Canada
| | - Lenora Turcotte
- Pacific Biological Station, Fisheries and Oceans Canada, Nanaimo, British Columbia, Canada
| | - Pearse McCarron
- Biotoxin Metrology, National Research Council Canada, Halifax, Nova Scotia, Canada
| | - Julia C Bradshaw
- Pacific Biological Station, Fisheries and Oceans Canada, Nanaimo, British Columbia, Canada
| | - Stewart C Johnson
- Pacific Biological Station, Fisheries and Oceans Canada, Nanaimo, British Columbia, Canada
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Kang Y, Su G, Yu Y, Cao J, Wang J, Yan B. CRISPR-Cas12a-Based Aptasensor for On-Site and Highly Sensitive Detection of Microcystin-LR in Freshwater. ENVIRONMENTAL SCIENCE & TECHNOLOGY 2022; 56:4101-4110. [PMID: 35263090 DOI: 10.1021/acs.est.1c06733] [Citation(s) in RCA: 23] [Impact Index Per Article: 11.5] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 06/14/2023]
Abstract
On-site monitoring of trace organic pollutants with facile methods is critical to environmental pollutant prevention and control. Herein, we proposed a CRISPR-Cas12a-based aptasensor platform (named as MC-LR-Casor) for on-site and sensitive detection of microcystin-LR (MC-LR). After hybridization with blocker DNA, the MC-LR aptamers were conjugated to magnetic beads (MBs) to get the MB aptasensor. In the presence of MC-LR, their interactions with aptamers were triggered and the specific binding caused the release of blocker DNA. Using the programmability of the CRISPR-Cas system, the released blocker DNA was designed to activate a Cas12a-crRNA complex. Single strand DNA reporters were rapidly cleaved by the complex. Signal readout could be achieved by fluorometer or lateral flow strips, which were positively correlated to MC-LR concentration. Benefiting from the CRISPR-Cas12a amplification system, the proposed sensing platform exhibited high sensitivity and reached the limit of detection of ∼3 × 10-6 μg/L (fluorescence method) or 1 × 10-3 μg/L (lateral flow assay). In addition, the MC-LR-Casor showed excellent selectivity and good recovery rates, demonstrating their good applicability for real water sample analysis. During the whole assay, only two steps of incubation at a constant temperature were required and the results could be visualized when employing flow strips. Therefore, the proposed assay offered a simple and convenient alternative for in situ MC-LR monitoring, which may hold great promise for future environmental surveillance.
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Affiliation(s)
- Yuliang Kang
- School of Pharmacy, Nantong University, Nantong 226001, China
- School of Environmental Science and Engineering, Shandong University, Qingdao 266237, China
| | - Gaoxing Su
- School of Pharmacy, Nantong University, Nantong 226001, China
| | - Yanyan Yu
- School of Pharmacy, Nantong University, Nantong 226001, China
| | - Jiajia Cao
- School of Pharmacy, Nantong University, Nantong 226001, China
| | - Jiali Wang
- School of Pharmacy, Nantong University, Nantong 226001, China
| | - Bing Yan
- Key Laboratory for Water Quality and Conservation of the Pearl River Delta, Ministry of Education, Institute of Environmental Research at Greater Bay, Guangzhou University, Guangzhou 510006, China
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Sundaravadivelu D, Sanan TT, Venkatapathy R, Mash H, Tettenhorst D, DAnglada L, Frey S, Tatters AO, Lazorchak J. Determination of Cyanotoxins and Prymnesins in Water, Fish Tissue, and Other Matrices: A Review. Toxins (Basel) 2022; 14:toxins14030213. [PMID: 35324710 PMCID: PMC8949488 DOI: 10.3390/toxins14030213] [Citation(s) in RCA: 14] [Impact Index Per Article: 7.0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/25/2022] [Revised: 03/10/2022] [Accepted: 03/13/2022] [Indexed: 12/10/2022] Open
Abstract
Harmful algal blooms (HABs) and their toxins are a significant and continuing threat to aquatic life in freshwater, estuarine, and coastal water ecosystems. Scientific understanding of the impacts of HABs on aquatic ecosystems has been hampered, in part, by limitations in the methodologies to measure cyanotoxins in complex matrices. This literature review discusses the methodologies currently used to measure the most commonly found freshwater cyanotoxins and prymnesins in various matrices and to assess their advantages and limitations. Identifying and quantifying cyanotoxins in surface waters, fish tissue, organs, and other matrices are crucial for risk assessment and for ensuring quality of food and water for consumption and recreational uses. This paper also summarizes currently available tissue extraction, preparation, and detection methods mentioned in previous studies that have quantified toxins in complex matrices. The structural diversity and complexity of many cyanobacterial and algal metabolites further impede accurate quantitation and structural confirmation for various cyanotoxins. Liquid chromatography–triple quadrupole mass spectrometer (LC–MS/MS) to enhance the sensitivity and selectivity of toxin analysis has become an essential tool for cyanotoxin detection and can potentially be used for the concurrent analysis of multiple toxins.
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Affiliation(s)
| | - Toby T. Sanan
- Office of Research and Development, Center for Environmental Solutions and Emergency Response, U.S. EPA, Cincinnati, OH 45268, USA; (H.M.); (D.T.)
- Correspondence: (T.T.S.); (J.L.); Tel.: +1-513-569-7076 (J.L.)
| | | | - Heath Mash
- Office of Research and Development, Center for Environmental Solutions and Emergency Response, U.S. EPA, Cincinnati, OH 45268, USA; (H.M.); (D.T.)
| | - Dan Tettenhorst
- Office of Research and Development, Center for Environmental Solutions and Emergency Response, U.S. EPA, Cincinnati, OH 45268, USA; (H.M.); (D.T.)
| | - Lesley DAnglada
- Office of Water, Science and Technology, U.S. EPA, Washington, DC 20004, USA; (L.D.); (S.F.)
| | - Sharon Frey
- Office of Water, Science and Technology, U.S. EPA, Washington, DC 20004, USA; (L.D.); (S.F.)
| | - Avery O. Tatters
- Center for Environmental Measurement and Modeling, U.S. EPA, Gulf Breeze, FL 32561, USA;
| | - James Lazorchak
- Center for Environmental Measurement and Modeling, U.S. EPA, Cincinnati, OH 45268, USA
- Correspondence: (T.T.S.); (J.L.); Tel.: +1-513-569-7076 (J.L.)
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9
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Kalaitzidou MP, Nannou CI, Lambropoulou DA, Papageorgiou KV, Theodoridis AM, Economou VK, Giantsis IA, Angelidis PG, Kritas SK, Petridou EJ. First report of detection of microcystins in farmed mediterranean mussels Mytilus galloprovincialis in Thermaikos gulf in Greece. JOURNAL OF BIOLOGICAL RESEARCH (THESSALONIKE, GREECE) 2021; 28:8. [PMID: 33691804 PMCID: PMC7949245 DOI: 10.1186/s40709-021-00139-4] [Citation(s) in RCA: 2] [Impact Index Per Article: 0.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 02/13/2021] [Accepted: 03/04/2021] [Indexed: 11/10/2022]
Abstract
BACKGROUND Microcystins are emerging marine biotoxins, produced by potentially toxic cyanobacteria. Their presence has been reported in aquatic animals in Greek freshwater, while data are few in marine environments. Since the climate change induces eutrophication and harmful algal blooms in coastal marine ecosystems affecting the public health, further research on microcystins' presence in marine waters is required. The aim of this study was to examine the potential presence of microcystins in mussels Mytilus galloprovincialis in the largest farming areas in Thermaikos gulf, in Northern Greece, and to investigate their temporal and spatial distribution, adding to the knowledge of microcystins presence in Greek Mediterranean mussels. RESULTS A 4-year microcystins' assessment was conducted from 2013 to 2016, in farmed Mediterranean mussels M. galloprovincialis, in five sampling areas in Thermaikos gulf, in northern Greece, where the 90% of the Greek mussels' farming activities is located. The isolation of potentially toxic cyanobacteria was confirmed by molecular methods. An initial screening was performed with a qualitative and quantitative direct monoclonal (DM) ELISA and results above 1 ng g-1 were confirmed for the occurrence of the most common microcystins-RR, -LR and -YR, by Ultra High Performance Liquid Chromatography (UHPLC) coupled with a high- resolution mass spectrometer (HRMS) (Orbitrap analyzer). Microcystin-RR and microcystin-LR were detected, while the intensity of microcystin-YR was below the method detection limit. Most samples that exhibited concentrations above 1 ng g-1 were detected during the warm seasons of the year and especially in spring. Results indicated an overestimation of the ELISA method, since concentrations ranged between 0.70 ± 0.15 ng g-1 and 53.90 ± 3.18 ng g-1, while the confirmation denoted that the levels of microcystins were 6 to 22 times lower. CONCLUSIONS Microcystin-RR and microcystin-LR were detected for the first time in mussel M. galloprovincialis, harvested from farms in Thermaikos gulf, in Central Macedonia, Greece. Their presence was linked to potentially toxic cyanobacteria. Bioaccumulation was observed in digestive gland, while the concentrations in muscles were found extremely low. Samples with levels above 1 ng g-1 were observed mostly during spring, confirming the seasonal distribution of microcystins. The comparison of the results by the ELISA and the LC-Orbitrap MS method indicated an overestimation of concentration by the ELISA method.
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Affiliation(s)
- Maria P. Kalaitzidou
- National Reference Laboratory for Marine Biotoxins, Department of Food Microbiology, Biochemical Control, Residues, Marine Biotoxins and other water toxins, Directorate of Veterinary Center of Thessaloniki, Ministry of Rural Development and Food, Limnou 3A, 54627 Thessaloniki, Greece
| | - Christina I. Nannou
- Laboratory of Environmental Pollution Control, Department of Chemistry, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece
- Center for Interdisciplinary Research and Innovation (CIRI-AUTH), Balkan Center, 57001 Thessaloniki, Greece
| | - Dimitra A. Lambropoulou
- Laboratory of Environmental Pollution Control, Department of Chemistry, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece
- Center for Interdisciplinary Research and Innovation (CIRI-AUTH), Balkan Center, 57001 Thessaloniki, Greece
| | - Konstantinos V. Papageorgiou
- 3rd Military Veterinary Hospital, General Staff, Hellenic Ministry of Defense, 15th km Thessaloniki-Vasilika, 57001 Thessaloniki, Greece
| | - Alexandros M. Theodoridis
- Laboratory of Animal Production Economics, School of Veterinary Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece
| | - Vangelis K. Economou
- Laboratory of Hygiene of Foods of Animal Origin-Veterinary Public Health, School of Veterinary Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece
| | - Ioannis A. Giantsis
- Faculty of Agricultural Sciences, University of Western Macedonia, Florina, Greece
| | - Panagiotis G. Angelidis
- Laboratory of Ichthyology, School of Veterinary Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece
| | - Spyridon K. Kritas
- Laboratory of Microbiology and Infectious Diseases, School of Veterinary Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece
| | - Evanthia J. Petridou
- Laboratory of Microbiology and Infectious Diseases, School of Veterinary Medicine, Faculty of Health Sciences, Aristotle University of Thessaloniki, University Campus, 54124 Thessaloniki, Greece
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10
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Roy-Lachapelle A, Solliec M, Sauvé S, Gagnon C. Evaluation of ELISA-based method for total anabaenopeptins determination and comparative analysis with on-line SPE-UHPLC-HRMS in freshwater cyanobacterial blooms. Talanta 2020; 223:121802. [PMID: 33298288 DOI: 10.1016/j.talanta.2020.121802] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/20/2020] [Revised: 10/19/2020] [Accepted: 10/20/2020] [Indexed: 11/30/2022]
Abstract
Anabaenopeptins (APs) are bioactive cyanopeptides of emerging concern produced by cyanobacteria. The research for analytical development has recently gained in importance due to their abundance in toxic cyanobacterial blooms. A new commercial enzyme-linked immunosorbent assay kit for the determination of total APs (APtot ELISA) has been released promising a rapid response with good cost efficiency for the routine monitoring of uncommon cyanopeptides. The present study explores the suitability of this new kit in comparison with a validated quantitative analytical method based on liquid chromatography coupled to mass spectrometry (LC-MS). The validation results were comparable with both methods for accuracy, precision, and calibration. Method detection limits were more sensitive using LC-MS specifically evaluated at 0.011 and 0.013 μg L-1 for AP-A and B respectively, compared to APtot ELISA evaluated at 0.10 μg L-1 for total of the two. For APtot ELISA, results were independent from the matrix; however, a systematic signal response was measured in blanks, requiring a blank subtraction in data treatment. Cross-reactivity of APtot ELISA was investigated by analyzing ten cyanopeptides selected for their abundance and diversity. Cyanopeptolin A (CP-A), nodularin-R (NOD), microcystin (MC)-RR, [Asp3]RR, and HilR showed cross-reactivity with an average overestimation going from 25 to 66%. Considering the contribution of cross-reactive cyanopeptides, thirteen lake samples out of fifteen showed higher concentrations using APtot ELISA with overestimation values up to 2261% compared to LC-MS. In light of this study results, LC-MS should still be preconized for the study and monitoring of APs when sensitivity and specificity are needed.
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Affiliation(s)
- Audrey Roy-Lachapelle
- Aquatic Contaminants Research Division, Environment and Climate Change Canada, 105 McGill, Montréal, Québec, H2Y 2E7, Canada
| | - Morgan Solliec
- NSERC-Industrial Chair on Drinking Water, CGM Department, École Polytechnique de Montréal, Montréal, QC, H3T 1J4, Canada
| | - Sébastien Sauvé
- Department of Chemistry, Université de Montréal, Montréal, Québec, H3C 3J7, Canada
| | - Christian Gagnon
- Aquatic Contaminants Research Division, Environment and Climate Change Canada, 105 McGill, Montréal, Québec, H2Y 2E7, Canada.
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11
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Massey IY, Wu P, Wei J, Luo J, Ding P, Wei H, Yang F. A Mini-Review on Detection Methods of Microcystins. Toxins (Basel) 2020; 12:E641. [PMID: 33020400 PMCID: PMC7601875 DOI: 10.3390/toxins12100641] [Citation(s) in RCA: 44] [Impact Index Per Article: 11.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/06/2020] [Revised: 09/28/2020] [Accepted: 09/30/2020] [Indexed: 12/14/2022] Open
Abstract
Cyanobacterial harmful algal blooms (CyanoHABs) produce microcystins (MCs) which are associated with animal and human hepatotoxicity. Over 270 variants of MC exist. MCs have been continually studied due of their toxic consequences. Monitoring water quality to assess the presence of MCs is of utmost importance although it is often difficult because CyanoHABs may generate multiple MC variants, and their low concentration in water. To effectively manage and control these toxins and prevent their health risks, sensitive, fast, and reliable methods capable of detecting MCs are required. This paper aims to review the three main analytical methods used to detect MCs ranging from biological (mouse bioassay), biochemical (protein phosphatase inhibition assay and enzyme linked immunosorbent assay), and chemical (high performance liquid chromatography, liquid chromatography-mass spectrometry, high performance capillary electrophoresis, and gas chromatography), as well as the newly emerging biosensor methods. In addition, the current state of these methods regarding their novel development and usage, as well as merits and limitations are presented. Finally, this paper also provides recommendations and future research directions towards method application and improvement.
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Affiliation(s)
- Isaac Yaw Massey
- Xiangya School of Public Health, Central South University, Changsha 410078, China; (I.Y.M.); (P.W.); (J.W.); (J.L.); (P.D.)
| | - Pian Wu
- Xiangya School of Public Health, Central South University, Changsha 410078, China; (I.Y.M.); (P.W.); (J.W.); (J.L.); (P.D.)
| | - Jia Wei
- Xiangya School of Public Health, Central South University, Changsha 410078, China; (I.Y.M.); (P.W.); (J.W.); (J.L.); (P.D.)
| | - Jiayou Luo
- Xiangya School of Public Health, Central South University, Changsha 410078, China; (I.Y.M.); (P.W.); (J.W.); (J.L.); (P.D.)
| | - Ping Ding
- Xiangya School of Public Health, Central South University, Changsha 410078, China; (I.Y.M.); (P.W.); (J.W.); (J.L.); (P.D.)
| | - Haiyan Wei
- Department of Occupational Medicine and Environmental Toxicology, School of Public Health, Nantong University, Nantong 226019, China
| | - Fei Yang
- Xiangya School of Public Health, Central South University, Changsha 410078, China; (I.Y.M.); (P.W.); (J.W.); (J.L.); (P.D.)
- School of Public Health, University of South China, Hengyang 421001, China
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12
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Gu J, Li Q, Chen B, Xu C, Zheng H, Zhou Y, Peng Z, Hu Z, Wang B. Species identification of Bombyx mori and Antheraea pernyi silk via immunology and proteomics. Sci Rep 2019; 9:9381. [PMID: 31253818 PMCID: PMC6599025 DOI: 10.1038/s41598-019-45698-8] [Citation(s) in RCA: 9] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/12/2018] [Accepted: 05/29/2019] [Indexed: 11/20/2022] Open
Abstract
In recent years, increasing attention has been paid to the origin, transmission and communication of silk. However, this is still an unsolved mystery in archaeology. The identification of silk-producing species, especially silk produced by Bombyx mori (B. mori) and Antheraea pernyi (A. pernyi), is of key significance to address this challenge. In this study, two innovative methods, i.e. immunology and proteomics, were proposed and successfully established for the species identification of silks. ELISAs result demonstrated that the two prepared antibodies exhibited high sensitivity and specificity in distinguishing B. mori and A. pernyi silk. No cross-reactivity with each other was observed. Moreover, biomarkers were obtained for Bombyx and Antheraea through proteomic analysis. It was also confirmed that the biomarkers were suitable for identifying the species that produced a given silk sample. Compared with conventional methods for distinguishing silk species, immunological and proteomics techniques used in tandem can provide intact information and have the potential to provide accurate and reliable information for species identification.
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Affiliation(s)
- Jincui Gu
- Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, Zhejiang Sci-Tech University, Hangzhou, 310018, China
| | - Qingqing Li
- Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, Zhejiang Sci-Tech University, Hangzhou, 310018, China
| | - Boyi Chen
- Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, Zhejiang Sci-Tech University, Hangzhou, 310018, China
| | - Chengfeng Xu
- Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, Zhejiang Sci-Tech University, Hangzhou, 310018, China
| | - Hailing Zheng
- Key Scientific Research Base of Textile Conservation, State Administration for Cultural Heritage, China National Silk Museum, Hangzhou, 310002, China
| | - Yang Zhou
- Key Scientific Research Base of Textile Conservation, State Administration for Cultural Heritage, China National Silk Museum, Hangzhou, 310002, China.
| | - Zhiqin Peng
- Institute of Textile Conservation, Zhejiang Sci-Tech University, Hangzhou, 310018, China
| | - Zhiwen Hu
- Institute of Textile Conservation, Zhejiang Sci-Tech University, Hangzhou, 310018, China
| | - Bing Wang
- Key Laboratory of Advanced Textile Materials and Manufacturing Technology, Ministry of Education, Zhejiang Sci-Tech University, Hangzhou, 310018, China.
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13
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Manali KM, Arunraj R, Ramakrishnan GS, Ramya M. Development of sensitive and specific multiplex PCR method for the detection of microcystin producing cyanobacteria in spirulina food supplements. Food Sci Biotechnol 2018; 28:609-614. [PMID: 30956874 DOI: 10.1007/s10068-018-0476-0] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/11/2018] [Revised: 09/08/2018] [Accepted: 09/18/2018] [Indexed: 11/24/2022] Open
Abstract
Spirulina has emerged as the next-generation dietary supplement owing to its health benefits. Despite the advantages, there have been reports of contamination by cyanotoxins such as microcystins that can adversely affect human health. Hence, there is a need to develop a robust, efficient, and cost-effective method to detect microcystin-producing cyanobacteria in these food supplements. In this study, we have demonstrated a multiplex polymerase chain reaction (PCR) method for identification of microcystin-contamination in spirulina dietary supplements. This method involves simultaneous amplification of phycocyanin and microcystin B encoding genes (pcb, mcyB). The sensitivity of the multiplex PCR was assessed, and the limit of detecting mcyB along with pcb was found to be 250 fg/µL. The presence of microcystin was detected in five out of seven fish food supplements indicating poor culture conditions. Hence, rigorous quality control is required for monitoring the spirulina food supplements.
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Affiliation(s)
- Kamath Mukund Manali
- Department of Genetic Engineering, SRM Institute of Science and Technology, Kattankkulathur, Kancheepuram District, Tamil Nadu 603203 India
| | - Rex Arunraj
- Department of Genetic Engineering, SRM Institute of Science and Technology, Kattankkulathur, Kancheepuram District, Tamil Nadu 603203 India
| | - Gautham Subramaniam Ramakrishnan
- Department of Genetic Engineering, SRM Institute of Science and Technology, Kattankkulathur, Kancheepuram District, Tamil Nadu 603203 India
| | - Mohandass Ramya
- Department of Genetic Engineering, SRM Institute of Science and Technology, Kattankkulathur, Kancheepuram District, Tamil Nadu 603203 India
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14
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Ramya M, Kayalvizhi M, Haripriya G, Rathinasabapathi P. Detection of microcystin-producing cyanobacteria in water samples using loop-mediated isothermal amplification targeting mcyB gene. 3 Biotech 2018; 8:378. [PMID: 30148028 DOI: 10.1007/s13205-018-1402-0] [Citation(s) in RCA: 6] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/28/2018] [Accepted: 08/10/2018] [Indexed: 12/30/2022] Open
Abstract
Microcystin toxin-producing cyanobacteria are known to have harmful effects on humans and animals. We have developed a loop-mediated isothermal amplification (LAMP)-based detection method by targeting the microcystin synthetase B gene (mcyB), the gene responsible for the production of microcystin. The sensitivity of the method was found to be 1 fg per reaction, and it was 1000-fold higher than the conventional PCR. The LAMP method was able to amplify the target gene with a minimum amount of dNTP (0.4 mM), which further reduces the cost of reaction. The improved LAMP assay could detect the presence of the toxin-producing cyanobacteria in water samples within 2 h of time, which demonstrates the rapidness of the method. Freshwater samples were screened using the developed LAMP, and seven water samples collected from lakes and a bird sanctuary tested positive for mcyB gene harboring cyanobacteria, and negative in all other drinking waters. Hence, the developed LAMP could be a possible alternative to the existing molecular methods for screening for microcystin in environmental samples with greater sensitivity.
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15
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Haghighi F, Talebpour Z, Nezhad AS. Towards fully integrated liquid chromatography on a chip: Evolution and evaluation. Trends Analyt Chem 2018. [DOI: 10.1016/j.trac.2018.05.002] [Citation(s) in RCA: 33] [Impact Index Per Article: 5.5] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 02/06/2023]
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16
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Bukaveckas PA, Franklin R, Tassone S, Trache B, Egerton T. Cyanobacteria and cyanotoxins at the river-estuarine transition. HARMFUL ALGAE 2018; 76:11-21. [PMID: 29887201 DOI: 10.1016/j.hal.2018.04.012] [Citation(s) in RCA: 9] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 02/12/2018] [Revised: 04/16/2018] [Accepted: 04/30/2018] [Indexed: 05/21/2023]
Abstract
We examined seasonal and longitudinal patterns in the occurrence of toxic cyanobacteria in the James River Estuary (Virginia). Highest chlorophyll and cyanobacteria levels were observed in the tidal freshwater segment, particularly during dry summers when freshwater replacement time was long. Cyanobacteria accounted for a small proportion of phytoplankton biomass (7-15%), and Microcystis comprised a small proportion of the cyanobacteria (<1%). Despite this, measureable levels of microcystin were commonly observed in water (>85% of samples in July, August and September), fish tissues (87% of planktivorous fishes) and shellfish (83% of individuals). Generic indicators of algal blooms (chlorophyll and algal biomass) had limited utility for predicting microcystin concentrations. However, chlorophyll was found to be a useful predictor for the probability of exceeding specific toxin thresholds. Tissue microcystin concentrations were highest in fish and shellfish collected from the tidal fresh segment, but were detectable in biota collected from the oligohaline at distances 50 km seaward.
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Affiliation(s)
- Paul A Bukaveckas
- Virginia Commonwealth University, Department of Biology and Center for Environmental Studies, United States.
| | - Rima Franklin
- Virginia Commonwealth University, Department of Biology and Center for Environmental Studies, United States
| | - Spencer Tassone
- Virginia Commonwealth University, Department of Biology and Center for Environmental Studies, United States
| | - Brendan Trache
- Virginia Commonwealth University, Department of Biology and Center for Environmental Studies, United States
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17
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Hu X, Ye J, Zhang R, Wu X, Zhang Y, Wu C. Detection of free microcystins in the liver and muscle of freshwater fish by liquid chromatography-tandem mass spectrometry. JOURNAL OF ENVIRONMENTAL SCIENCE AND HEALTH. PART. B, PESTICIDES, FOOD CONTAMINANTS, AND AGRICULTURAL WASTES 2017; 52:770-776. [PMID: 28937880 DOI: 10.1080/03601234.2017.1356670] [Citation(s) in RCA: 6] [Impact Index Per Article: 0.9] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 06/07/2023]
Abstract
MC analysis of biological tissue is considered to be very difficult due to the lack of validated methods. This is the primary limiting factor for monitoring potential risks in both the flesh of aquatic organisms and the aquatic ecosystem. In this study, an effective method to determine free MCs (MC-LR and MC-RR) in the muscle and liver tissues of freshwater cultured fish was developed using solid-phase extraction (SPE) and liquid chromatography-tandem mass spectrometry (LC/MS-MS). The extraction solvent, time of extraction, eluent and purification of the extract were optimized. Various SPE cartridges were also investigated. In this optimized analytical procedure, an 85% methanol/water solution (v/v) was selected as the extraction solvent, after which the extracts were purified by removing fats and proteins; a HLB cartridge was chosen for MCs enrichment; and 90% methanol containing 0.02% formic acid/water solution (v/v) was used as the eluent. Under the optimized pretreatment conditions and instrument parameters, good recoveries of MC-LR and MC-RR were obtained at three concentrations (0.5, 1.0 and 2.0 µg g-1 dry weight (DW)), with values ranging from 92.5 to 98.3% and 92.1 to 98.6%, respectively. The method detection limit (MDL) for muscle samples was 0.5 µg kg-1 and 0.4 µg kg-1 (DW) for MC-LR and MC-RR, respectively. The MDL for the liver samples was 0.8 µg kg-1 (DW) for both MC-LR and MC-RR. The developed procedure was successfully applied to analyze MCs in the muscle and liver of fish samples collected from a Chinese freshwater aquaculture pond during bloom seasons. The MC-LR concentrations ranged from below the MDL to 4.17 µg kg-1 and the MC-RR concentrations ranged from below the MDL to 2.64 µg kg-1.
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Affiliation(s)
- Xiaobin Hu
- a School of Life Science , Huzhou University , Huzhou , China
| | - Jinyun Ye
- a School of Life Science , Huzhou University , Huzhou , China
| | - Rongfei Zhang
- a School of Life Science , Huzhou University , Huzhou , China
| | - Xiang Wu
- a School of Life Science , Huzhou University , Huzhou , China
| | - Yixiang Zhang
- a School of Life Science , Huzhou University , Huzhou , China
| | - Chenglong Wu
- a School of Life Science , Huzhou University , Huzhou , China
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18
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Zhu X, Huang Z, Gao W, Li X, Li L, Zhu H, Mo T, Huang B, Zhou Z. Rapid Microcystin Determination Using a Paper Spray Ionization Method with a Time-of-Flight Mass Spectrometry System. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY 2016; 64:5614-9. [PMID: 27345366 DOI: 10.1021/acs.jafc.6b02101] [Citation(s) in RCA: 9] [Impact Index Per Article: 1.1] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 05/26/2023]
Abstract
The eutrophication of surface water sources and climate changes have resulted in an annual explosion of cyanobacterial blooms in many irrigating and drinking water resources. To decrease health risks to the public, a rapid real time method for the synchronous determination of two usually harmful microcystins (MC-RR and MC-LR) in environmental water samples was built by employing a paper spray ionization method coupled with a time-of-flight mass spectrometer system. With this approach, direct analysis of microcystin mixtures without sample preparation has been achieved. Rapid detection was performed, simulating the release process of microcystins in reservoir water samples, and the routine detection frequency was every three minutes. The identification time of microcystins was reduced from several hours to a few minutes. The limit of detection is 1 μg/L, and the limit of quantitation is 3 μg/L. This method displays the ability for carrying out rapid, direct, and high-throughput experiments for determination of microcystins, and it would be of significant interest for environmental and food safety applications.
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Affiliation(s)
- Xiaoqiang Zhu
- Institute of Atmospheric Environment Safety and Pollution Control, Jinan University , Guangzhou 510632, China
- Department of Ecology, Jinan University , Guangzhou 510632, China
| | - Zhengxu Huang
- Institute of Atmospheric Environment Safety and Pollution Control, Jinan University , Guangzhou 510632, China
- Guangdong Provincial Engineering Research Center for On-line Source Apportionment System of Air Pollution , Guangzhou 510632, China
| | - Wei Gao
- Institute of Atmospheric Environment Safety and Pollution Control, Jinan University , Guangzhou 510632, China
- Guangdong Provincial Engineering Research Center for On-line Source Apportionment System of Air Pollution , Guangzhou 510632, China
| | - Xue Li
- Institute of Atmospheric Environment Safety and Pollution Control, Jinan University , Guangzhou 510632, China
- Guangdong Provincial Engineering Research Center for On-line Source Apportionment System of Air Pollution , Guangzhou 510632, China
| | - Lei Li
- Institute of Atmospheric Environment Safety and Pollution Control, Jinan University , Guangzhou 510632, China
- Guangdong Provincial Engineering Research Center for On-line Source Apportionment System of Air Pollution , Guangzhou 510632, China
| | - Hui Zhu
- Guangzhou Hexin Analytical Instrument Co., Ltd. , Guangzhou 510530, China
| | - Ting Mo
- Guangzhou Hexin Analytical Instrument Co., Ltd. , Guangzhou 510530, China
| | - Bao Huang
- Guangzhou Hexin Analytical Instrument Co., Ltd. , Guangzhou 510530, China
| | - Zhen Zhou
- Institute of Atmospheric Environment Safety and Pollution Control, Jinan University , Guangzhou 510632, China
- Guangdong Provincial Engineering Research Center for On-line Source Apportionment System of Air Pollution , Guangzhou 510632, China
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19
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Li Y, Ma X, Xu Z, Liu M, Lin Z, Qiu B, Guo L, Chen G. Multicolor ELISA based on alkaline phosphatase-triggered growth of Au nanorods. Analyst 2016; 141:2970-6. [DOI: 10.1039/c6an00117c] [Citation(s) in RCA: 26] [Impact Index Per Article: 3.3] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/21/2022]
Abstract
In this work, seed-mediated synthesis of gold nanorods (AuNRs) is demonstrated for multicolor biosensing for the first time.
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Affiliation(s)
- Yanyan Li
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
| | - Xiaoming Ma
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
| | - Zhengming Xu
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
| | - Meihua Liu
- Fuqing Branch of Fujian Normal University
- Fuqing
- China
| | - Zhenyu Lin
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
| | - Bin Qiu
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
| | - Longhua Guo
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
| | - Guonan Chen
- Institute of Nanomedicine and Nanobiosensing
- The Key Lab of Analysis and Detection Technology for Food Safety of the MOE and Fujian Province
- College of Chemistry
- Fuzhou University
- Fuzhou
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