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Protein Science (2007), 16:1316-1328. Published by Cold Spring Harbor Laboratory Press. Copyright © 2007 The Protein Society
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NMR structure of a KlbA intein precursor from Methanococcus jannaschii

Margaret A. Johnson1, Maurice W. Southworth2, Torsten Herrmann3, Lear Brace2, Francine B. Perler2, and Kurt Wüthrich1

1 The Scripps Research Institute, Department of Molecular Biology and Skaggs Institute for Chemical Biology, La Jolla, California 92037, USA
2 New England BioLabs, Ipswich, Massachusetts 01938, USA
3 Institute for Molecular Biology and Biophysics, ETH Zürich, CH-8093, Zürich, Switzerland

(RECEIVED February 9, 2007; FINAL REVISION April 3, 2007; ACCEPTED April 7, 2007)

Certain proteins of unicellular organisms are translated as precursor polypeptides containing inteins (intervening proteins), which are domains capable of performing protein splicing. These domains, in conjunction with a single residue following the intein, catalyze their own excision from the surrounding protein (extein) in a multistep reaction involving the cleavage of two intein–extein peptide bonds and the formation of a new peptide bond that ligates the two exteins to yield the mature protein. We report here the solution NMR structure of a 186-residue precursor of the KlbA intein from Methanococcus jannaschii, comprising the intein together with N- and C-extein segments of 7 and 11 residues, respectively. The intein is shown to adopt a single, well-defined globular domain, representing a HINT (Hedgehog/Intein)-type topology. Fourteen beta-strands are arranged in a complex fold that includes four beta-hairpins and an antiparallel beta-ribbon, and there is one {alpha}-helix, which is packed against the beta-ribbon, and one turn of 310-helix in the loop between the beta-strands 8 and 9. The two extein segments show increased disorder, and form only minimal nonbonding contacts with the intein domain. Structure-based mutation experiments resulted in a proposal for functional roles of individual residues in the intein catalytic mechanism.

Keywords: protein splicing; inteins; NMR structure determination


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