Research progress on aptamer-based electrochemiluminescence sensors for detection of mycotoxins in food and environmental samples

Mycotoxins are harmful secondary fungal metabolites that pose a threat to human and animal health. They can be found in a variety of agricultural and food products. Several countries have implemented policies to regulate the presence of contaminants in agricultural and food products intended for bot...

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Bibliographic Details
Published inJournal of environmental chemical engineering Vol. 12; no. 5; p. 113313
Main Authors Song, Kai, Saleh, Raed Obaid, Kadhum, Wesam R., Saleh, Ebraheem Abdu Musad, Kassem, Asmaa F., Noori, Sarmad Dheyaa, Alawady, Ahmed hussien, Kumar, Abhinav, Ghildiyal, Pallavi, Kadhim, Abed J.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2024
Subjects
Aptamer
Electrochemiluminescence
Mycotoxins
Nanomaterials
RET
PAT
FGNs
GMNPs
PANI
AFB1
MOGs
CDNA
DPV
NGQDs
DTNs
AuNPs
BPE-ECL
CdTe/ZnS
AOH
FRET
AIE
SELEX
DON
GCE
Nanomaterials
MOFs
Electrochemiluminescence
ECL
AIECL
CDs
FAO
BPQDs
HCR
AFM1
MSFs
Mycotoxins
GQDs
Bi2S3
MWCNTs
Aptamer
GO-L-AgNPs
CHA
G-C3N4
OTA
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Summary:Mycotoxins are harmful secondary fungal metabolites that pose a threat to human and animal health. They can be found in a variety of agricultural and food products. Several countries have implemented policies to regulate the presence of contaminants in agricultural and food products intended for both animal and human consumption. As a result, there is a recognized global need to advance highly sensitive and intelligent recognition systems. With advancements in nucleic acid aptamer recognition technology, nanomaterials, and photoelectric sensing, the integration-driven emerging electrochemiluminescence (ECL) aptamer sensing technology has shown promising potential in detecting mycotoxin contaminants. ECL aptasensors have the benefits of excellent controllability, a wide dynamic range, easy and rapid operation, high sensitivity, specificity, and play an imperative role in the determination of mycotoxins. However, there is a lack of comprehensive strategies to enhance the sensitivity of ECL for mycotoxin quantification in food, a topic that has not been extensively emphasized and discussed. In this study, we reviewed the recent advancements in ECL aptasensors utilizing aptamers as recognition elements and nanomaterials as active components for the quantitative detection of various mycotoxins in agricultural and food-related samples over the past five years. We also examined the inherent challenges and outlined potential future developments in this field. [Display omitted] •The potential of nanomaterials-driven ECL aptasensors are highlighted.•The identification mechanisms of nanomaterials-driven ECL aptasensors are presented.•Detailed signal enhancement mechanisms and biosensing applications are deliberated.•Future prospects of ECL aptasensors toward mycotoxins are discussed.
ISSN:2213-3437
DOI:10.1016/j.jece.2024.113313