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1. Investigation of the Interaction between Patulin and Human Serum Albumin by a Spectroscopic Method, Atomic Force Microscopy, and Molecular Modeling

Author

Chen Jiao, Yang Zhen, Guo Yu-rong, Jia Bao-xiu, Liu Cai-hong, Li Yuqin, and You Guirong

Subjects

Models, Molecular, Circular dichroism, Time Factors, Article Subject, Serum albumin, lcsh:Medicine, Microscopy, Atomic Force, Protein Structure, Secondary, General Biochemistry, Genetics and Molecular Biology, Hydrophobic effect, Patulin, chemistry.chemical_compound, medicine, Humans, Molecule, Serum Albumin, Binding Sites, Quenching (fluorescence), General Immunology and Microbiology, biology, Hydrogen bond, Circular Dichroism, lcsh:R, General Medicine, Human serum albumin, body regions, Kinetics, Spectrometry, Fluorescence, Energy Transfer, chemistry, biology.protein, Thermodynamics, Physical chemistry, Spectrophotometry, Ultraviolet, Research Article, Protein Binding, medicine.drug

Abstract

The interaction of patulin with human serum albumin (HSA) was studied in vitro under normal physiological conditions. The study was performed using fluorescence, ultraviolet-visible spectroscopy (UV-Vis), circular dichroism (CD), atomic force microscopy (AFM), and molecular modeling techniques. The quenching mechanism was investigated using the association constants, the number of binding sites, and basic thermodynamic parameters. A dynamic quenching mechanism occurred between HSA and patulin, and the binding constants (K) were 2.60 × 104, 4.59 × 104, and 7.01 × 104 M−1at 288, 300, and 310 K, respectively. Based on fluorescence resonance energy transfer, the distance between the HSA and patulin was determined to be 2.847 nm. TheΔG0,ΔH0, andΔS0values across various temperatures indicated that hydrophobic interaction was the predominant binding force. The UV-Vis and CD results confirmed that the secondary structure of HSA was altered in the presence of patulin. The AFM results revealed that the individual HSA molecule dimensions were larger after interaction with patulin. In addition, molecular modeling showed that the patulin-HSA complex was stabilized by hydrophobic and hydrogen bond forces. The study results suggested that a weak intermolecular interaction occurred between patulin and HSA. Overall, the results are potentially useful for elucidating the toxigenicity of patulin when it is combined with the biomolecular function effect, transmembrane transport, toxicological, testing and other experiments.

Published

2014