Literature DB >> 9159112

Construction of a catalytically active iron superoxide dismutase by rational protein design.

A L Pinto1, H W Hellinga, J P Caradonna.   

Abstract

The rational protein design algorithm DEZYMER was used to introduce the active site of nonheme iron superoxide dismutase (SOD) into the hydrophobic interior of the host protein, Escherichia coli thioredoxin (Trx), a protein that does not naturally contain a transition metal-binding site. Reconstitution of the designed protein, Trx-SOD, showed the incorporation of one high-affinity metal-binding site. The electronic spectra of the holoprotein and its N3- and F- adducts are analogous to those previously reported for native {Fe3+}SOD. Activity assays showed that {Fe3+}Trx-SOD is capable of catalyzing the dismutation of the superoxide anion; comparative studies with the unrelated wild-type E. coli iron SOD indicated that {Fe3+}Trx-SOD catalyzes the dismutation reaction at a rate on the order of 10(5) M-1s -1. The ability to design catalytically competent metalloenzymes allows for the systematic investigation of fundamental mechanistic questions concerning catalysis at transition metal centers.

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Year:  1997        PMID: 9159112      PMCID: PMC20818          DOI: 10.1073/pnas.94.11.5562

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  31 in total

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Journal:  Biochemistry       Date:  1989-08-22       Impact factor: 3.162

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Journal:  Gene       Date:  1984-12       Impact factor: 3.688

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Journal:  Proc Natl Acad Sci U S A       Date:  1983-07       Impact factor: 11.205

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  29 in total

1.  Rational design of nascent metalloenzymes.

Authors:  D E Benson; M S Wisz; H W Hellinga
Journal:  Proc Natl Acad Sci U S A       Date:  2000-06-06       Impact factor: 11.205

2.  Enzyme-like proteins by computational design.

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Journal:  Proc Natl Acad Sci U S A       Date:  2001-11-27       Impact factor: 11.205

3.  Computational design of a Zn2+ receptor that controls bacterial gene expression.

Authors:  M A Dwyer; L L Looger; H W Hellinga
Journal:  Proc Natl Acad Sci U S A       Date:  2003-09-19       Impact factor: 11.205

Review 4.  De novo proteins from designed combinatorial libraries.

Authors:  Michael H Hecht; Aditi Das; Abigail Go; Luke H Bradley; Yinan Wei
Journal:  Protein Sci       Date:  2004-07       Impact factor: 6.725

5.  Improving computational protein design by using structure-derived sequence profile.

Authors:  Liang Dai; Yuedong Yang; Hyung Rae Kim; Yaoqi Zhou
Journal:  Proteins       Date:  2010-08-01

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Journal:  J Biomol NMR       Date:  1999-10       Impact factor: 2.835

7.  Metalloprotein and metallo-DNA/RNAzyme design: current approaches, success measures, and future challenges.

Authors:  Yi Lu
Journal:  Inorg Chem       Date:  2006-12-11       Impact factor: 5.165

8.  Local encoding of computationally designed enzyme activity.

Authors:  Malin Allert; Mary A Dwyer; Homme W Hellinga
Journal:  J Mol Biol       Date:  2006-12-05       Impact factor: 5.469

9.  Protein fabrication automation.

Authors:  J Colin Cox; Janel Lape; Mahmood A Sayed; Homme W Hellinga
Journal:  Protein Sci       Date:  2007-01-22       Impact factor: 6.725

Review 10.  Energy functions in de novo protein design: current challenges and future prospects.

Authors:  Zhixiu Li; Yuedong Yang; Jian Zhan; Liang Dai; Yaoqi Zhou
Journal:  Annu Rev Biophys       Date:  2013-02-28       Impact factor: 12.981
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