2-Phenylethaneboronic acid, a possible transition-state analog for

Larry D. Sutton , Jay S. Stout , Lynn Hosie , Patricia S. Spencer , Daniel M. Quinn. Biochemical and Biophysical Research Communications 1986 134 (1),...
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2-Phenylethaneboronic Acid, a Possible Transition-State Analog for Chymotrypsin" Karl A . Koehlcr and Gustav E. Lienhardf

A B S T K A U : 2-Phenylethaneboronic acid, hydrocinnamaniide, and 2-phenylcthoncsulfonate are competitive inhibitors of thc oc-chymotrypsin-catalyzed hydrolysis of methyl hippurate. The dissociation constants ( K ; )of the enzyme--inhibitor complexes have been determined as a function of pH over the pH range between 5 and I O . 2-Phenylethaneboronic acid binds most tightly to the form of chymotrypsin in which the imidazole group of histidine-57 at the active site exists as the free base ( K , = 0.04 mM at pH 8), whereas the state of protonation of this imidazole does not significantly affect the binding of hydrocinnamamide ( K , = about 6 m v between pH 5 and 8). 2-Phenylethancsulfonate binds more tightly to the form of

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transition-state analog for an enzyme is a compound which forms a stable complex with the enzyme in which complex the structure of the analog resembles the substrate por~

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thc enzyme in which the imidazole is protonated ( K , = 2.9 inst at pH 5 ) than it does to the form in which the imidazole is unprotonated ( K ; = 30 nihi at pH 8). These facts are used in conjunction with the chemistry of boronic acids and the present knowledge of the structure and mechanism of action of chymotrypsin to deduce that one possible structure for the complex between chymotrypsin and the boronic acid is the structure in which the hydroxyl group of serine-195 has added to boron to form a negatively charged tetrahedral adduct and in which the imidazole is protonated, -HN-E-CH,-O-B(R) (OH),-. Such a structure is an approximate analog of the transition states for acylation and deacylation of serine-195 which occur during catalysis.

tion of the transition state (structure of highest energy) for the enzymatic conversion of bound substrate into bound product (Pauling, 1948; Wolfenden, 1969). The crystal structure of an

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Froni tlic Dcpartment of Biochctnistr> and Molecular Biology, tiarvartl L i i i \ c r s i t > , Cambridge, Massachusetts 02138. Receiced I-cbriiorj 2 , I Y 7 / . This work was supported by a grant from the National

Science Foundation (GB 12848) and a postdoctoral fellowship to I