BIOMAT Database Logo BIOMAT Database Logo

Inhibitory kinetics of chlorocinnamic acids on mushroom tyrosinase. 2014

Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
State Key Laboratory of Cellular Stress Biology and Key Laboratory of the Ministry of Education for Coastal and Wetland Ecosystems, School of Life Sciences, Xiamen University, Xiamen 361005, China.

Tyrosinase (EC 1.14.18.1) is the key enzyme of most food enzymatic oxidation. Tyrosinase inhibitors are important in food industry. In the present paper, 2-chlorcinnamic acid and 2,4-dichlorocinnamic acid were synthesized and the inhibitory kinetics on mushroom tyrosinase were investigated. The results showed that both compounds synthesized could inhibit tyrosinase activity. For monophenolase activity, both chlorocinnamic acids could extended the lag time and decrease the steady-state activities, 2-chlorcinnamic acid extended the lag time just by 5%, and 2,4-dichlorcinnamic acid extended the lag time more than by 30.4%. For diphenolase activity, the IC50 values of 2-chlorcinnamic acid and 2,4-dichlorocinnamic acid were determined to be 0.765 mM and 0.295 mM, respectively. The inhibition kinetics showed that 2-chlorcinnamic acid and 2,4-dichlorocinnamic acid displayed a reversible and uncompetitive mechanism. The inhibition constants were determined to be 0.348 mM and 0.159 mM, respectively. The research may supply the basis for designing new tyrosinase inhibitors.

UI MeSH Term Description Entries
D007700 Kinetics The rate dynamics in chemical or physical systems.
D010084 Oxidation-Reduction A chemical reaction in which an electron is transferred from one molecule to another. The electron-donating molecule is the reducing agent or reductant; the electron-accepting molecule is the oxidizing agent or oxidant. Reducing and oxidizing agents function as conjugate reductant-oxidant pairs or redox pairs (Lehninger, Principles of Biochemistry, 1982, p471). Redox,Oxidation Reduction
D010088 Oxidoreductases The class of all enzymes catalyzing oxidoreduction reactions. The substrate that is oxidized is regarded as a hydrogen donor. The systematic name is based on donor:acceptor oxidoreductase. The recommended name will be dehydrogenase, wherever this is possible; as an alternative, reductase can be used. Oxidase is only used in cases where O2 is the acceptor. (Enzyme Nomenclature, 1992, p9) Dehydrogenases,Oxidases,Oxidoreductase,Reductases,Dehydrogenase,Oxidase,Reductase
D002934 Cinnamates Derivatives of cinnamic acid (the structural formula: phenyl-HC Cinnamate
D004791 Enzyme Inhibitors Compounds or agents that combine with an enzyme in such a manner as to prevent the normal substrate-enzyme combination and the catalytic reaction. Enzyme Inhibitor,Inhibitor, Enzyme,Inhibitors, Enzyme
D000363 Agaricales An extensive order of basidiomycetous fungi whose fruiting bodies are commonly called mushrooms. Agaricaceae,Mushrooms,Agaricale,Mushroom
D014442 Monophenol Monooxygenase An enzyme of the oxidoreductase class that catalyzes the reaction between L-tyrosine, L-dopa, and oxygen to yield L-dopa, dopaquinone, and water. It is a copper protein that acts also on catechols, catalyzing some of the same reactions as CATECHOL OXIDASE. EC 1.14.18.1. Dopa Oxidase,Phenoloxidase,Tyrosinase,Cresolase,Phenol Oxidase,Phenoloxidase A,Phenoloxidase B,Monooxygenase, Monophenol,Oxidase, Dopa,Oxidase, Phenol

Related Publications

Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Kinetics of inhibitory effect of isoferulic acid on mushroom tyrosinase.
January 2013, Journal of cosmetic science,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Reversible and competitive inhibitory kinetics of amoxicillin on mushroom tyrosinase.
November 2013, International journal of biological macromolecules,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Irreversibly inhibitory kinetics of 3,5-dihydroxyphenyl decanoate on mushroom (Agaricus bisporus) tyrosinase.
November 2005, Bioorganic & medicinal chemistry,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Inhibitory kinetics of paeonol on the activity of mushroom tyrosinase oxidizing L-dopa.
June 2006, Yao xue xue bao = Acta pharmaceutica Sinica,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
The inhibitory effect of ethylenediamine on mushroom tyrosinase.
April 2012, International journal of biological macromolecules,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Inhibitory mechanism of Penicillin V on mushroom tyrosinase.
February 2020, Molecular biology reports,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Molecular inhibitory mechanism of dihydromyricetin on mushroom tyrosinase.
November 2018, Journal of biomolecular structure & dynamics,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Inhibition kinetics of chlorobenzaldehyde thiosemicarbazones on mushroom tyrosinase.
December 2010, Journal of agricultural and food chemistry,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Inhibitory effects on mushroom tyrosinase by some alkylbenzaldehydes.
December 2003, Journal of enzyme inhibition and medicinal chemistry,
Yong-Hua Hu, and Xuan Liu, and Yu-Long Jia, and Yun-Ji Guo, and Qin Wang, and Qing-Xi Chen
Inhibitory Kinetics of Azachalcones and their Oximes on Mushroom Tyrosinase: A Facile Solid-state Synthesis.
May 2016, Chemistry & biodiversity,
Copied contents to your clipboard!