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Science 17 April 1992:
Vol. 256. no. 5055, pp. 365 - 367
DOI: 10.1126/science.256.5055.365
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Articles

An Efficient Antibody-Catalyzed Aminoacylation Reaction

John R. Jacobsen 1, James R. Prudent 1, Lynn Kochersperger 2, Shirlee Yonkovich 2, and Peter G. Schultz 1

1 Department of Chemistry, University of California, Berkeley, CA 94720
2 Department of Bioorganic Chemistry, Affymax Research Institute, Palo Alto, CA 94304

An antibody generated against a neutral phosphonate diester transition-state analog was found to catalyze the aminoacylation of the 3'-hydroxyl group of thymidine with an alanyl ester. A comparison of the apparent second-order rate constant of the antibody-catalyzed reaction [5.4 x 104 molar-1 minute-1 (M-1 min-1)] with that of the uncatalyzed reaction (2.6 x 10-4 M-1 min-1) revealed this to be a remarkably efficient catalyst. Moreover, although the concentration of water (55 M) greatly exceeds that of the secondary alcohol, the antibody selectively catalyzes acyl transfer to thymidine. The antibody exhibits sequential binding, with Michaelis constants of 770 µM and 260 µM for acyl acceptor and donor, respectively, and a dissociation constant of 240 pM for hapten. This antibody- catalyzed reaction provides increased insight into the requirements for efficient aminoacylation catalysts and may represent a first step toward the generation of "aminoacyl transfer RNA synthetases" with novel specificities.


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