TY - JOUR
T1 - The moderately efficient enzyme
T2 - Evolutionary and physicochemical trends shaping enzyme parameters
AU - Bar-Even, Arren
AU - Noor, Elad
AU - Savir, Yonatan
AU - Liebermeister, Wolfram
AU - Davidi, Dan
AU - Tawfik, Dan S.
AU - Milo, Ron
N1 - Israel Academy of Sciences and Humanities; Azrieli Foundation; Kahn Center for System Biology; ERC [260392]; Israel Science Foundation [750/09]; Mr. and Mrs. Yossie Hollander and Miel de Botton Aynsley fundsA.B.-E. is supported by the Adams Fellowship Program of the Israel Academy of Sciences and Humanities. E.N. is supported by the Azrieli Foundation and the Kahn Center for System Biology. R.M. is supported by research grants from the ERC (260392 - SYMPAC), Israel Science Foundation (Grant 750/09), and the Mr. and Mrs. Yossie Hollander and Miel de Botton Aynsley funds. R.M. is the incumbent of the Anna and Maurice Boukstein career development chair, and D.S.T. is the Nella and Leon Benoziyo Professor of Biochemistry. D.S.T. is supported by the EU BioModular H2 network.
PY - 2011/5/31
Y1 - 2011/5/31
N2 - The kinetic parameters of enzymes are key to understanding the rate and specificity of most biological processes. Although specific trends are frequently studied for individual enzymes, global trends are rarely addressed. We performed an analysis of kcat and KM values of several thousand enzymes collected from the literature. We found that the "average enzyme" exhibits a kcat of ̃10 s-1 and a k cat/ KM of ̃105 s-1 M-1, much below the diffusion limit and the characteristic textbook portrayal of kinetically superior enzymes. Why do most enzymes exhibit moderate catalytic efficiencies? Maximal rates may not evolve in cases where weaker selection pressures are expected. We find, for example, that enzymes operating in secondary metabolism are, on average, ̃30-fold slower than those of central metabolism. We also find indications that the physicochemical properties of substrates affect the kinetic parameters. Specifically, low molecular mass and hydrophobicity appear to limit KM optimization. In accordance, substitution with phosphate, CoA, or other large modifiers considerably lowers the KM values of enzymes utilizing the substituted substrates. It therefore appears that both evolutionary selection pressures and physicochemical constraints shape the kinetic parameters of enzymes. It also seems likely that the catalytic efficiency of some enzymes toward their natural substrates could be increased in many cases by natural or laboratory evolution.
AB - The kinetic parameters of enzymes are key to understanding the rate and specificity of most biological processes. Although specific trends are frequently studied for individual enzymes, global trends are rarely addressed. We performed an analysis of kcat and KM values of several thousand enzymes collected from the literature. We found that the "average enzyme" exhibits a kcat of ̃10 s-1 and a k cat/ KM of ̃105 s-1 M-1, much below the diffusion limit and the characteristic textbook portrayal of kinetically superior enzymes. Why do most enzymes exhibit moderate catalytic efficiencies? Maximal rates may not evolve in cases where weaker selection pressures are expected. We find, for example, that enzymes operating in secondary metabolism are, on average, ̃30-fold slower than those of central metabolism. We also find indications that the physicochemical properties of substrates affect the kinetic parameters. Specifically, low molecular mass and hydrophobicity appear to limit KM optimization. In accordance, substitution with phosphate, CoA, or other large modifiers considerably lowers the KM values of enzymes utilizing the substituted substrates. It therefore appears that both evolutionary selection pressures and physicochemical constraints shape the kinetic parameters of enzymes. It also seems likely that the catalytic efficiency of some enzymes toward their natural substrates could be increased in many cases by natural or laboratory evolution.
UR - http://www.scopus.com/inward/record.url?scp=79958097953&partnerID=8YFLogxK
U2 - https://doi.org/10.1021/bi2002289
DO - https://doi.org/10.1021/bi2002289
M3 - مقالة
SN - 0006-2960
VL - 50
SP - 4402
EP - 4410
JO - Biochemistry
JF - Biochemistry
IS - 21
ER -