Abstract
In total, 405 samples of corn, corn products, and swine feed from China in 2016–2018 were surveyed for zearalenone (ZEN) contamination using a magnetic bead immunoassay-coupled biotin–streptavidin system (BAS-MBI). The developed BAS-MBI had a limit of detection (LOD) of 0.098 ng mL−1, with half-maximal inhibition concentration (IC50) of 0.71 ng mL−1 in working buffer, and an LOD of 0.98 ng g−1; the detection range was from 0.98 to 51.6 ng g−1 in authentic agricultural samples. The BAS-MBI has been demonstrated to be a powerful method for the rapid, sensitive, specific, and accurate determination of ZEN. The ZEN positivity rate reached the highest level of 40.6% in 133 samples in 2016; ZEN levels ranged from 1.8 to 1100.0 ng g−1, with an average level of 217.9 ng g−1. In 2017, the ZEN positivity rate was the lowest at 24.5% in 143 samples; ZEN levels ranged from 1.1 to 722.6 ng g−1, with an average of 166.7 ng g−1. In 2018, the ZEN positivity rate was 31.8% in 129 samples; ZEN levels ranged from 1.3 to 947.8 ng g−1, with an average of 157.0 ng g−1. About 20% of ZEN-positive samples exceeded maximum limit levels. An alternative method of ZEN detection and a valuable reference for ZEN contamination in corn and its related products in China are provided. This survey suggests the need for prevention of serious ZEN contamination, along with management for food safety and human health.
Highlights
Zearalenone (ZEN), which is a secondary metabolite from Fusarium species, has been frequently found in corn, corn product, feed, and cereal crops [1]
Neurotoxicity, teratogenesis, immune function, estrogenic, and even carcinogenic effects might be caused after consuming the products with ZEN contamination [3]
The concentrations of magnetic antigen probe and biotinylated antibody probe were selected by the checkerboard method when the value of B0 reached
Summary
Zearalenone (ZEN), which is a secondary metabolite from Fusarium species, has been frequently found in corn, corn product, feed, and cereal crops [1]. ZEN has become one of the most widespread contaminations of Fusarium toxins [2]. Neurotoxicity, teratogenesis, immune function, estrogenic, and even carcinogenic effects might be caused after consuming the products with ZEN contamination [3]. From the planting and harvesting of crops to the processing and storage of agricultural products, any part of the food chain might be contaminated by ZEN. No 1126/2007 regulated that the maximum limits (MLs) of ZEN should be no more than 100 ng g−1 in unprocessed cereals and 350 ng g−1 in unprocessed maize, respectively [4]. A provisional maximal tolerable daily intake for ZEN has been established as 0.5 ng g−1 of body weight by the Expert
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