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Abstract
Fluorescence spectroscopy, UV absorption, circular dichroism (CD) spectroscopy and molecular modeling methods were used to characterize the binding properties of thiacloprid (TL) with human serum albumin (HSA) at molecular level under physiological conditions. The fluorescence intensity of HSA decreased regularly with the gradually increasing concentration of thiacloprid. The binding constant K at three different temperatures (290, 300 and 310 K) were 3.07, 2.74 and 1.35 × 104M−1, respectively, for TL–HSA interaction have been calculated from the relevant fluorescence data. CD spectroscopic measurements have shown that the secondary structures of the protein have been changed by the interaction of thiacloprid with HSA. Furthermore, the study of molecular modeling indicated that thiacloprid could be located on the surface of the binding pocket of subdomains IIA in HSA. The hydrophobic interaction was the major acting force and there are H-bonds and electrostatic interactions between TL and HSA, which is in good agreement with the results from the experimental thermodynamic parameters (the enthalpy change ΔH0and the entropy change ΔS0were calculated to be -20.378 kJ/mol and 16.328 J/mol K according to the Van9t Hoff equation).
Highlights
Chemicals released from agriculture or industry may potentially develop toxic effects in the environment and ecological systems
The results indicated that an interaction occurred between thiacloprid and human serum albumin (HSA)
The results reveal that the binding of thiacloprid to HSA has changed the secondary structure of HSA
Summary
Chemicals released from agriculture or industry may potentially develop toxic effects in the environment and ecological systems. Thiacloprid (structure shown in Fig. 1), a relatively new neonicotinoid insecticide, ((Z)-3-(6-chloro-3-pyridylmethyl)-1,3-thiazolidin-2ylidenecyanamide) has been produced by Bayer Crop Science since 2003. It acts as an agonist on the nicotinoid acetylcholine receptor (nAChR). Neonicotinoids are systemic insecticides and enter the body via contact and ingestion. They act on the central nervous system of the insects and are mainly used in pest management against biting and sucking insects. At physiological pH levels, neonicotinoids are not protonated.
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