Among the competitive ELISAs for aflatoxins that have been described, few have been adequately validated for reduced matrix effects. Using an aflatoxin B(1) (AFB(1))-specific polyclonal antibody (produced from AFB(1)-oxime conjugated to bovine serum albumin (BSA)) and AFB(1)- and AFB(2)-enzyme conjugates, four direct competitive ELISAs based on 96-microwell plates (two standard assays and two rapid assays) were developed, paying special attention to producing a robust assay relatively free of interferences for a range of agricultural products. The antibody was AFB(1)-specific, detecting only AFB(1) in a mixture of four aflatoxins (AFB(1), AFB(2), AFG(1), and AFG(2)), but showed significant cross-reaction with AFG(1) (57-61%) when an individual compound was tested. Standard assays (long assays) exhibited higher sensitivities than rapid assays (short assays) with IC(50) values of 12 +/- 1.5 and 9 +/- 1.5 microg/kg in sample (with 1 in 5 dilution of sample extract) for AFB(1) and AFB(2)-enzyme conjugates, respectively. These assays have narrower detection ranges (7.1-55.5 microg/kg in sample) and required dilution of sample extracts to overcome solvent and matrix interferences, making these assays less ideal as analytical methods. Rapid assays exhibited IC(50) values of 21.6 +/- 2.7 and 12 microg/kg in sample for AFB(1)- and AFB(2)-enzyme conjugates, respectively. These assays have ideally broader detection ranges (4.2-99.9 microg/kg in sample) and showed no methanol effects up to 80% with significantly reduced matrix interferences as a result of the shorter incubation times and increasing the amounts of enzyme conjugate used. Therefore, the rapid assays were formatted to perform without a need for extract dilution. The rapid assays can be completed within 15 min, potentially suitable for receival bays where quick decision-making to segregate low and high contamination is critical. Further validation using the rapid assay with AFB(1)-enzyme conjugate indicated relatively good recoveries of AFB(1) spiked in corn, peanuts, pistachio, and soybeans, which were free from significant matrix effects. It can be concluded that this rapid assay would be suitable for monitoring aflatoxin AFB(1) at current legal maximum residue limits of 10 microg/kg in food such as corn, peanuts, pistachio, and soybeans.
A competitive enzyme-linked immunosorbert assay (ELISA) was developed for the quantitative detection of five benzophenylurea insecticides in soil (90% methanol extraction) and water. No significant matrix effects were observed. Conjugates of diflubenzuron derivatives with proteins were prepared by attachment at either the urea nitrogen of diflubenzuron or the 4-position of the aniline ring, wherein bridging groups of various lengths were used between the hapten and the protein carrier. All combinations of antiserum to each immunogen and enzyme tracer were examined, and an assay was developed using an antibody developed to a hapten conjugate coupled through a succinyl chain at the 4-aniline position. The assay gave 50% inhibition of antibody binding (IC 50 ) at 0.6 ppb for diflubenzuron, 5 ppb for teflubenzuron, 10 ppb for flufenoxuron, 31 ppb for lufenuron, and 45 ppb for chlorfluazuron, with detection limits in the range of 0.05-2.3 ppb for these compounds. The basis for the superior cross-reaction of diflubenzuron was examined by molecular modeling, which suggested that the planarity of the molecules, electron-withdrawing groups, and steric effects of chlorines attached to the phenyl ring may be critical factors affecting antibody binding.
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