Literature DB >> 23205852

Study of the interaction of deoxynivalenol with human serum albumin by spectroscopic technique and molecular modelling.

Yuqin Li1, Hao Wang, Baoxiu Jia, Caihong Liu, Ke Liu, Yongxiu Qi, Zhide Hu.   

Abstract

The mechanism of interaction between deoxynivalenol (DON) and human serum albumin (HSA) was studied using spectroscopic methods including fluorescence spectra, UV-VIS, Fourier transform infrared (FT-IR) and circular dichroism (CD). The quenching mechanism was investigated in terms of the association constants, number of binding sites and basic thermodynamic parameters. The distance between the HSA donor and the acceptor DON was 2.80 nm as derived from fluorescence resonance energy transfer. The secondary structure compositions of free HSA and its DON complexes were estimated by the FT-IR spectra. Alteration of the secondary protein structure in the presence of DON was confirmed by UV-VIS and CD spectroscopy. Molecular modelling revealed that a DON-protein complex was stabilised by hydrophobic forces and hydrogen bonding. It was potentially useful for elucidating the toxigenicity of DON when combined with biomolecular function effect, transmembrane transport, toxicological testing and the other experiments.

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Year:  2012        PMID: 23205852     DOI: 10.1080/19440049.2012.742573

Source DB:  PubMed          Journal:  Food Addit Contam Part A Chem Anal Control Expo Risk Assess        ISSN: 1944-0057


  8 in total

1.  Interaction of zearalenone with bovine serum albumin as determined by fluorescence quenching.

Authors:  Liang Ma; Chris M Maragos; Yuhao Zhang
Journal:  Mycotoxin Res       Date:  2017-11-13       Impact factor: 3.833

2.  Multiplex surface-enhanced Raman scattering detection of deoxynivalenol and ochratoxin A with a linear polymer affinity agent.

Authors:  Rebeca S Rodriguez; Victoria M Szlag; Theresa M Reineke; Christy L Haynes
Journal:  Mater Adv       Date:  2020-10-26

3.  Interactions of zearalenone and its reduced metabolites α-zearalenol and β-zearalenol with serum albumins: species differences, binding sites, and thermodynamics.

Authors:  Zelma Faisal; Beáta Lemli; Dénes Szerencsés; Sándor Kunsági-Máté; Mónika Bálint; Csaba Hetényi; Mónika Kuzma; Mátyás Mayer; Miklós Poór
Journal:  Mycotoxin Res       Date:  2018-07-16       Impact factor: 3.833

4.  Binding of citreoviridin to human serum albumin: multispectroscopic and molecular docking.

Authors:  Haifeng Hou; Xiaolan Qu; Yuqin Li; Yueyue Kong; Baoxiu Jia; Xiaojun Yao; Baofa Jiang
Journal:  Biomed Res Int       Date:  2015-04-21       Impact factor: 3.411

5.  Investigation of the interaction between patulin and human serum albumin by a spectroscopic method, atomic force microscopy, and molecular modeling.

Authors:  Li Yuqin; You Guirong; Yang Zhen; Liu Caihong; Jia Baoxiu; Chen Jiao; Guo Yurong
Journal:  Biomed Res Int       Date:  2014-07-08       Impact factor: 3.411

6.  Investigation of Non-Covalent Interactions of Aflatoxins (B1, B2, G1, G2, and M1) with Serum Albumin.

Authors:  Miklós Poór; Mónika Bálint; Csaba Hetényi; Beatrix Gődér; Sándor Kunsági-Máté; Tamás Kőszegi; Beáta Lemli
Journal:  Toxins (Basel)       Date:  2017-10-25       Impact factor: 4.546

Review 7.  From the gut to the brain: journey and pathophysiological effects of the food-associated trichothecene mycotoxin deoxynivalenol.

Authors:  Marc Maresca
Journal:  Toxins (Basel)       Date:  2013-04-23       Impact factor: 4.546

8.  Probing the Interactions of Ochratoxin B, Ochratoxin C, Patulin, Deoxynivalenol, and T-2 Toxin with Human Serum Albumin.

Authors:  Zelma Faisal; Virág Vörös; Eszter Fliszár-Nyúl; Beáta Lemli; Sándor Kunsági-Máté; Rita Csepregi; Tamás Kőszegi; Ferenc Zsila; Miklós Poór
Journal:  Toxins (Basel)       Date:  2020-06-13       Impact factor: 4.546
  8 in total

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