Direct Electrochemical Nano‐immunosensor for Microcystin‐LR in Seawater

Talamini, Lucas; Zanato, Nicole; Zapp, Eduardo; Brondani, Daniela; Vieira, Iolanda Cruz

doi:10.1002/elan.201700815

Cited by 8 publications

(4 citation statements)

References 50 publications

(75 reference statements)

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“…The limit of detection (LOD), calculated as three times the standard deviation of the intercept/slope, was 0.053 ng mL À 1 . Table 1 shows a brief comparison of the linear ranges and detection limits of the GCE/MGNnP-PEI-anti-MC-LR and other immunosensors for MC-LR detection, recently published in the literature [12,14,[16][17][18][32][33][34][35]. It can be observed that the LOD of the proposed immunosensor is close to that of previously reported LOD values.…”

Section: Analytical Performance Of Immunosensorsupporting

confidence: 70%

“…It was also found that the highest current suppression was obtained with an incubation time of 40 min, and thus this was considered the ideal time to incubate the MC‐LR antigen. In previous studies on electrochemical immunosensors used to detect MC‐LR, incubation times ranging from 10 to 240 min have been applied . The incubation time selected for the proposed immunosensor is therefore compatible with those cited in the literature.…”

Section: Resultsmentioning

confidence: 99%

“…Table shows a brief comparison of the linear ranges and detection limits of the GCE/MGNnP‐PEI‐anti‐MC‐LR and other immunosensors for MC‐LR detection, recently published in the literature . It can be observed that the LOD of the proposed immunosensor is close to that of previously reported LOD values.…”

Section: Resultsmentioning

confidence: 99%

“…Thin-layer chromatography, high-performance liquid chromatography, enzyme-linked immunosorbent assay, liquid chromatography/mass spectrometry and protein phosphatase inhibition assays are the techniques generally applied to detect low concentrations of MC-LR [12,13]. Recently, electrochemical immunosensors and label-free fluorescent probes for MC-LR detection have been developed as an alternative to traditional techniques, offering low detection limits, no need for sample pretreatment and easy manipulation [14][15][16][17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

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Label‐free Immunosensor for the Determination of Microcystin‐LR in Water

2020

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This paper describes the development of a label-free electrochemical immunosensor based on polyethyleneimine-stabilized magnetite nanoparticles (MGNnP-PEI) for the determination of microcystin-LR (MC-LR). MGNnP-PEI was immobilized on the glassy carbon electrode (GCE) surface and employed as a platform for anchorage of the anti-MC-LR. Hydroqui-none in solution was used as a redox probe. After optimization, the immunosensor exhibited a linear response to MC-LR concentrations in the range of 0.1 to 500 ng mL À 1 with a calculated detection limit of 0.053 ng mL À 1. The immunosensor was satisfactorily applied in the quantification of MC-LR in a water sample collected from a freshwater lagoon.

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Section: Analytical Performance Of Immunosensorsupporting

confidence: 70%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Label‐free Immunosensor for the Determination of Microcystin‐LR in Water

2020

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Self-assembly flexible SERS imprinted membrane based on Ag nanocubes for selective detection of microcystin-LR

Wang,

Zhang,

Sun

et al. 2023

Microchim Acta

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Cost-effective screen-printed carbon electrode biosensors for rapid detection of microcystin-LR in surface waters for early warning of harmful algal blooms

Stoll

Hwang

Fox

et al. 2022

Environ Sci Pollut Res

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Microcystins (MCs) are toxins produced by cyanobacteria commonly found in harmful algal blooms (HABs). Due to their toxicity to humans and other organisms, the World Health Organization (WHO) set a guideline of 1 µg L − 1 for microcystinleucine-arginine (MC-LR) in drinking water. However, current analytical techniques for the detection of MC-LR such as liquid chromatography-mass spectrometry (LC-MS) and ELISA are costly, bulky, time-consuming, and mostly conducted in a laboratory, requiring highly trained personnel. An analytical method that can be used in the eld for rapid determination is essential. In this study, an Anti-MC-LR/MC-LR/Cysteamine coated screen-printed carbon electrode (SPCE) biosensor was newly developed to detect MC-LR, bioelectrochemically, in water. The functionalization of the electrode surface was con rmed with surface characterization methods. The sensor performance was evaluated by electrochemical impedance spectroscopy (EIS), obtaining a linear working range of MC-LR concentrations between 0.1 and 100 µg L − 1 with a limit of detection (LOD) of 0.69 ng L − 1 . Natural water samples experiencing HABs were collected and analyzed using the developed biosensor, demonstrating the excellent performance of the biosensor with a relative standard deviation (RSD) of 0.65%. The interference tests showed a minimal error and RSD values against other common MCs and possible coexisting ions found in water. The biosensor showed acceptable functionality with a shelf life of up to 12 weeks. Overall, the Anti-MC-LR/MC-LR/Cysteamine/SPCE biosensors can be an innovative solution with characteristics that allow for in situ, lowcost, and easy-to-use capabilities which are essential for developing an overarching and integrated "smart" environmental management system.

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Direct Electrochemical Nano‐immunosensor for Microcystin‐LR in Seawater

Cited by 8 publications

References 50 publications

Label‐free Immunosensor for the Determination of Microcystin‐LR in Water

Label‐free Immunosensor for the Determination of Microcystin‐LR in Water

Self-assembly flexible SERS imprinted membrane based on Ag nanocubes for selective detection of microcystin-LR

Cost-effective screen-printed carbon electrode biosensors for rapid detection of microcystin-LR in surface waters for early warning of harmful algal blooms

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