Abstract

AbstractIn this work, the inhibitory ability and mechanism of ω3‐nicotinic acid (ω3‐NA) and ω3‐Picolinic acid (ω3‐PA) complexes on the activity of mushroom tyrosinase (MT) were scrutinized for progressing a novel MT inhibitor. The complexes were synthesized. It was shown to have a considerable inhibition on the MT activity and Ki value of ω3‐NA and ω3‐PA on MT equal to 5.2 and 5.1 mM, respectively. ω3‐NA and ω3‐PA inhibited MT with Vmax values in the range of 0.134 mM and 0.14 mM, respectively. The outputs obtained from fluorescence quenching specified that ω3‐NA and ω3‐PA could interact with MT. Especially, the decrease in fluorescence intensity was due to the formation of a ligand‐enzyme complex which was mostly motivated by hydrogen bonding and hydrophobic forces. The presence of ω3‐NA and ω3‐PA altered the structure of MT and reduced the α‐helix of the enzyme. Molecular docking investigation along with molecular dynamics simulation exhibited that ligands‐MT formation is directed by hydrogen binding with Trp136, His263, and Val299 residues. The results highlight that ω3‐NA and ω3‐PA can be considered as possible inhibitors in treating hyperpigmentation via MT enzyme inhibition.

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