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Bioimpacts. 2017;7(4): 241-246. doi: 10.15171/bi.2017.28
PMID: 29435431        PMCID: PMC5801535

Original Research

Spectroscopic, thermodynamic and molecular docking studies of bovine serum albumin interaction with ascorbyl palmitate food additive

Yousef Sohrabi 1,2, Vahid Panahi-Azar 3, Abolfazl Barzegar 4, Jafar Ezzati Nazhad Dolatabadi 5 * ORCID, Parvin Dehghan 1 *

Cited by CrossRef: 34


1- Shahabadi N, Hadidi S, Abdoli Z, Mardani Z. Interaction of a cobalt(III) complex containing β-amino alcohol with human serum albumin (HSA): Spectroscopic and molecular docking methods. Journal of Molecular Liquids. 2023;384:122187 [Crossref]
2- Javaheri-Ghezeldizaj F, Mahmoudpour M, Yekta R, Ezzati Nazhad Dolatabadi J. Albumin binding study to sodium lactate food additive using spectroscopic and molecular docking approaches. Journal of Molecular Liquids. 2020;310:113259 [Crossref]
3- Bagalkoti J, Joshi S, Nandibewoor S. Spectral and molecular modelling studies of sulfadoxine interaction with bovine serum albumin. Journal of Photochemistry and Photobiology A: Chemistry. 2019;382:111871 [Crossref]
4- Singh I, Mitra S. Interaction of chlorpropamide with serum albumin: Effect on advanced glycated end (AGE) product fluorescence. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2019;206:569 [Crossref]
5- Banu A, Naqvi S, Qashqoosh M, Manea Y. Multispectroscopic and computational study of interaction of the bovine serum albumin with atropine and atropine-loaded chitosan nanoparticles (synthesized and characterized). Journal of Biomolecular Structure and Dynamics. 2023;41(20):11137 [Crossref]
6- Üstün E, Şahin N. Interaction analysis of a new NHC precursor and its Ag-NHC complex with bovine serum albumin by spectrophotometric and molecular docking methods. Journal of Coordination Chemistry. 2023;76(16-24):1941 [Crossref]
7- Imran M, Titilayo B, Adil M, Adil L, Mehmood Q, Mustafa S, Shen Q. Ascorbyl palmitate: A comprehensive review on its characteristics, synthesis, encapsulation and applications. Process Biochemistry. 2024;142:68 [Crossref]
8- Arumugam V, Rajamanikandan R, Ilanchelian M, Xu H, Moodley K, Gao Y. Spectroscopic and thermodynamic studies on binding behaviour of an ionic liquid, 2′,3′-Epoxypropyl-N-methyl-2-oxopyrrolidinium acetate, with bovine serum albumin (BSA). Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2020;601:124954 [Crossref]
9- Mohammadzadeh-Aghdash H, Akbari N, Esazadeh K, Ezzati Nazhad Dolatabadi J. Molecular and technical aspects on the interaction of serum albumin with multifunctional food preservatives. Food Chemistry. 2019;293:491 [Crossref]
10- Gu J, Zheng S, Zhao H, Sun T. Investigation on the interaction between triclosan and bovine serum albumin by spectroscopic methods. Journal of Environmental Science and Health, Part B. 2020;55(1):52 [Crossref]
11- Jiménez J, Benítez M. Gibbs Free Energy and Enthalpy–Entropy Compensation in Protein–Ligand Interactions. Biophysica. 2024;4(2):298 [Crossref]
12- Qashqoosh M, Alahdal F, Manea Y, Zubair S, Khan R, Khan A, Naqvi S. Binding ability of roxatidine acetate and roxatidine acetate supported chitosan nanoparticles towards bovine serum albumin: characterization, spectroscopic and molecular docking studies. Journal of Biomolecular Structure and Dynamics. 2023;41(1):106 [Crossref]
13- Meng D, Zhou H, Xu J, Zhang S. Studies on the interaction of salicylic acid and its monohydroxy substituted derivatives with bovine serum albumin. Chemical Physics. 2021;546:111182 [Crossref]
14- Banu A, Khan R, Qashqoosh M, Manea Y, Furkan M, Naqvi S. Multispectroscopic and computational studies of interaction of bovine serum albumin, human serum albumin and bovine hemoglobin with bisacodyl. Journal of Molecular Structure. 2022;1249:131550 [Crossref]
15- Dehghan P, Mohammadi A, Mohammadzadeh-Aghdash H, Ezzati Nazhad Dolatabadi J. Pharmacokinetic and toxicological aspects of potassium sorbate food additive and its constituents. Trends in Food Science & Technology. 2018;80:123 [Crossref]
16- Kim H, Ryu S, Baek J. The Effect of Hot-Melt Extrusion of Mulberry Leaf on the Number of Active Compounds and Antioxidant Activity. Plants. 2022;11(22):3019 [Crossref]
17- Zhang J, Cai L, Mo Y, Hu X, Lin H. Design of two different functional molecular logic devices based on hybrid fluorescence resonance­electron exchange energy transfer. Chemical Physics. 2023;574:112052 [Crossref]
18- You H, Ryu S, Lee H, Baek J. Enhanced antibacterial activity of multi-walled carbon nanotubes loaded with hot-melt extruded Mulberry leaf silver nanoparticles. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2024;699:134522 [Crossref]
19- Esazadeh K, Ezzati Nazhad Dolatabadi J, Andishmand H, Mohammadzadeh‐Aghdash H, Mahmoudpour M, Naemi Kermanshahi M, Roosta Y. Cytotoxic and genotoxic effects of tert‐butylhydroquinone, butylated hydroxyanisole and propyl gallate as synthetic food antioxidants. Food Science & Nutrition. 2024;12(10):7004 [Crossref]
20- Hájovská P, Chytil M, Kalina M. Rheological study of albumin and hyaluronan-albumin hydrogels: Effect of concentration, ionic strength, pH and molecular weight. International Journal of Biological Macromolecules. 2020;161:738 [Crossref]
21- Ali M, Waseem M, Subbarao N, Al-Lohedan H. Dynamic interaction between lysozyme and ceftazidime: Experimental and molecular simulation approaches. Journal of Molecular Liquids. 2021;328:115412 [Crossref]
22- Qashqoosh M, Alahdal F, Manea Y, Zakariya S, Naqvi S. Synthesis, characterization and spectroscopic studies of surfactant loaded antiulcer drug into Chitosan nanoparticles for interaction with bovine serum albumin. Chemical Physics. 2019;527:110462 [Crossref]
23- Karimi Z, Mirza Alizadeh A, Ezzati Nazhad Dolatabadi J, Dehghan P. Nigella sativa and its Derivatives as Food Toxicity Protectant Agents. Adv Pharm Bull. 2019;9(1):22 [Crossref]
24- Ngueanngam N, Jityuti B, Patnin S, Boonsri P, Makarasen A, Buranaprapuk A. Multiple spectroscopic and computational studies on binding interaction of 2-phenylamino-4-phenoxyquinoline derivatives with bovine serum albumin. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2024;310:123948 [Crossref]
25- Fathi F, Sharifi M, Jafari A, Kakavandi N, Kashanian S, Ezzati Nazhad Dolatabadi J, Rashidi M. Kinetic and thermodynamic insights into interaction of albumin with piperacillin: Spectroscopic and molecular modeling approaches. Journal of Molecular Liquids. 2019;296:111770 [Crossref]
26- Vasti C, Marengo-Viada C, Giacomelli C, Rojas R. Fluorescence study of the interaction between albumin and layered double hydroxides. Chemico-Biological Interactions. 2024;394:110974 [Crossref]
27- Muthu S, Jadav H, Srivastava S, Pissurlenkar R, Ahmad B. The reorganization of conformations, stability and aggregation of serum albumin isomers through the interaction of glycopeptide antibiotic teicoplanin: A thermodynamic and spectroscopy study. International Journal of Biological Macromolecules. 2020;163:66 [Crossref]
28- Taghipour P, Zakariazadeh M, Sharifi M, Ezzati Nazhad Dolatabadi J, Barzegar A. Bovine serum albumin binding study to erlotinib using surface plasmon resonance and molecular docking methods. Journal of Photochemistry and Photobiology B: Biology. 2018;183:11 [Crossref]
29- Mahmoudpour M, Javaheri-Ghezeldizaj F, Yekta R, Torbati M, Mohammadzadeh-Aghdash H, Kashanian S, Ezzati Nazhad Dolatabadi J. Thermodynamic analysis of albumin interaction with monosodium glutamate food additive: Insights from multi-spectroscopic and molecular docking approaches. Journal of Molecular Structure. 2020;1221:128785 [Crossref]
30- Sen Chowdhury M, Sarkar A, Rai S, Dasgupta S, Majumder I, Bhattacharya A, Das D, Bose D, Mukhopadhyay J, Mukhopadhyay M. Probing the binding interaction of zinc (II) Schiff bases with bovine serum albumin: A spectroscopic and molecular docking study. Applied Organom Chemis. 2021;35(4) [Crossref]
31- Sohrabi Y, Mohammadzadeh-Aghdash H, Baghbani E, Dehghan P, Ezzati Nazhad Dolatabadi J. Cytotoxicity and Genotoxicity Assessment of Ascorbyl Palmitate (AP) Food Additive. Adv Pharm Bull. 2018;8(2):341 [Crossref]


As a peer-reviewed international open-access journal, BioImpacts publishes articles on basic and translational aspects of pharmaceutical and biomedical sciences. 
Acceptance rate: 24% 
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