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. 2004 Jun 25;304(5679):1967-71.
doi: 10.1126/science.1098432.

Computational design of a biologically active enzyme

Mary A Dwyer  1 Loren L LoogerHomme W Hellinga
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Computational design of a biologically active enzyme

Mary A Dwyer et al. Science. .

Retraction in

  • Retraction.
    Dwyer MA, Looger LL, Hellinga HW. Dwyer MA, et al. Science. 2008 Feb 1;319(5863):569. doi: 10.1126/science.319.5863.569b. Science. 2008. PMID: 18239106 No abstract available.

Abstract

Rational design of enzymes is a stringent test of our understanding of protein chemistry and has numerous potential applications. Here, we present and experimentally validate the computational design of enzyme activity in proteins of known structure. We have predicted mutations that introduce triose phosphate isomerase activity into ribose-binding protein, a receptor that normally lacks enzyme activity. The resulting designs contain 18 to 22 mutations, exhibit 10(5)- to 10(6)-fold rate enhancements over the uncatalyzed reaction, and are biologically active, in that they support the growth of Escherichia coli under gluconeogenic conditions. The inherent generality of the design method suggests that many enzymes can be designed by this approach.

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