An unexpectedly efficient catalytic antibody operating by ping-pong and induced fit mechanisms

Peter Wirsching; Jon A. Ashley; Stephen J. Benkovic; Kim D. Janda; Richard A. Lerner

An unexpectedly efficient catalytic antibody operating by ping-pong and induced fit mechanisms

Peter Wirsching, Jon A. Ashley, Stephen J. Benkovic, Kim D. Janda, Richard A. Lerner

Chemistry

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101 Scopus citations

Abstract

A transition state analogue was used to produce a mouse antibody that catalyzes transesterification in water. The antibody behaves as a highly efficient catalyst with a covalent intermediate and the characteristic of induced fit. While some features of the catalytic pathway were programmed when the hapten was designed and reflect favorable substrate-antibody interactions, other features are a manifestation of the chemical potential of antibody diversity. The fact that antibodies recapitulate mechanisms and pathways previously thought to be a characteristic of highly evolved enzymes suggests that once an appropriate binding cavity is achieved, reaction pathways commensurate with the intrinsic chemical potential of proteins ensue.

Original language	English (US)
Pages (from-to)	680-685
Number of pages	6
Journal	Science
Volume	252
Issue number	5006
State	Published - May 3 1991

All Science Journal Classification (ASJC) codes

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Cite this

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AU - Wirsching, Peter

AU - Ashley, Jon A.

AU - Benkovic, Stephen J.

AU - Janda, Kim D.

AU - Lerner, Richard A.

PY - 1991/5/3

Y1 - 1991/5/3

N2 - A transition state analogue was used to produce a mouse antibody that catalyzes transesterification in water. The antibody behaves as a highly efficient catalyst with a covalent intermediate and the characteristic of induced fit. While some features of the catalytic pathway were programmed when the hapten was designed and reflect favorable substrate-antibody interactions, other features are a manifestation of the chemical potential of antibody diversity. The fact that antibodies recapitulate mechanisms and pathways previously thought to be a characteristic of highly evolved enzymes suggests that once an appropriate binding cavity is achieved, reaction pathways commensurate with the intrinsic chemical potential of proteins ensue.

AB - A transition state analogue was used to produce a mouse antibody that catalyzes transesterification in water. The antibody behaves as a highly efficient catalyst with a covalent intermediate and the characteristic of induced fit. While some features of the catalytic pathway were programmed when the hapten was designed and reflect favorable substrate-antibody interactions, other features are a manifestation of the chemical potential of antibody diversity. The fact that antibodies recapitulate mechanisms and pathways previously thought to be a characteristic of highly evolved enzymes suggests that once an appropriate binding cavity is achieved, reaction pathways commensurate with the intrinsic chemical potential of proteins ensue.

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ER -

An unexpectedly efficient catalytic antibody operating by ping-pong and induced fit mechanisms

Abstract

All Science Journal Classification (ASJC) codes

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