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Journal of Biomolecular Structure and Dynamics Volume 37, 2019 - Issue 9
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Research Article

Deciphering the binding of carbendazim (fungicide) with human serum albumin: A multi-spectroscopic and molecular modelling studies

Mohd Faizan SiddiquiDepartment of Biochemistry, Aligarh Muslim University, Aligarh, Uttar Pradesh, India; View further author information
,
Mohd Shahnawaz KhanProtein Research Chair, Department of Biochemistry, College of Sciences, King Saud University, Riyadh, Saudi Arabia; View further author information
,
Fohad Mabood HusainDepartment of Food Science and Nutrition, Faculty of Food and Agricultural Sciences, King Saud University, Riyadh, Saudi ArabiaCommunicated by Ramaswamy H. SarmaView further author information
&
Bilqees BanoDepartment of Biochemistry, Aligarh Muslim University, Aligarh, Uttar Pradesh, India; Correspondence[email protected]
View further author information
Pages 2230-2241 | Received 16 Apr 2018, Accepted 17 May 2018, Published online: 17 Nov 2018
 
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Abstract

Carbendazim is a benzimidazole fungicide used to control the fungal invasion. However, its exposure might lead to potential health problems. The present study evaluates the interaction of carbendazim (CAR) with human serum albumin (HSA) which is an important drug carrier protein and plays a very crucial role in the transportation of small molecules. A number of biophysical techniques were employed to investigate the binding of CAR with HSA. The increased UV-absorption of HSA on titrating with CAR suggests the formation of HSA–CAR complex and it could be due to the exposure of aromatic residues. The fluorescence study confirmed that CAR quenches the fluorescence of HSA and showed the static mode of quenching. CAR (50 µM) quenches around 56.14% of the HSA fluorescence. The quenching constant, binding constant, number of binding site and free energy change was calculated by fluorescence quenching experiment. Competitive displacement assay showed Sudlow’s site I as the primary binding site of CAR on HSA. The synchronous fluorescence study revealed the perturbation in the microenvironment around tyrosine and tryptophan residues upon binding of CAR to HSA. The circular dichroism results suggested that the binding of CAR to HSA altered its secondary structure. Molecular docking experiment demonstrated the binding of CAR to Sudlow’s site I of HSA. Docking studies suggested that the hydrogen bonding, van der Waals and pi-alkyl are playing role in the interaction of CAR with HSA. The study confirmed the conformational changes within HSA upon binding of CAR.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This work was supported by Deanship of Scientific Research at the KSU [Research Group Project Number RGP-215].

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