Catalytically perfect enzyme

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A catalytically perfect enzyme or kinetically perfect enzyme is an enzyme that catalyzes so efficiently, that almost every time enzyme meets its substrate, the reaction occurs. k_cat/K_m factor of such enzyme is of order 10⁸ to 10⁹ M^-1 s^-1. Such reaction is only limited by substrate diffusion rate.

Some catalytically perfect enzymes are triose-phosphate isomerase, carbonic anhydrase, acetylcholinesterase, catalase, fumarase, β-lactamase, and superoxide dismutase.

Some enzymes operate with kinetics which are faster than diffusion rates, which would seem to be impossible. Several mechanisms have been invoked to explain this phenomenon. Some proteins are believed to accelerate catalysis by drawing their substrate in and preorienting them by using dipolar electric fields. Some invoke a quantum-mechanical tunneling explanation whereby a proton or an electron can tunnel through activation barriers, although for protons tunneling remains somewhat controversial. ^[1][2]

[edit] References

1. ^ Mireia Garcia-Viloca, Jiali Gao, Martin Karplus, Donald G. Truhlar Science 9 January 2004: Vol. 303. no. 5655, pp. 186 - 195
2. ^ Mats M. H. Olsson, Per E. M. Siegbahn, Warshel A. J Am Chem Soc. 2004 Mar 10;126(9):2820-2828.

v • d • e Proteins: enzymes Topics Active site - Allosteric regulation - Binding site - Catalytically perfect enzyme - Coenzyme - Cofactor - Cooperativity - EC number Enzyme catalysis - Enzyme inhibitor - Enzyme kinetics - Lineweaver-Burk plot - Michaelis-Menten kinetics - List of enzymes Types EC1 Oxidoreductases/list - EC2 Transferases/list - EC3 Hydrolases/list - EC4 Lyases/list - EC5 Isomerases/list - EC6 Ligases/list