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- Title
Probing the chemistry of thioredoxin catalysis with force.
- Authors
Wiita, Arun P.; Perez-Jimenez, Raul; Walther, Kirstin A.; Gräter, Frauke; Berne, B. J.; Holmgren, Arne; Sanchez-Ruiz, Jose M.; Fernandez, Julio M.
- Abstract
Thioredoxins are enzymes that catalyse disulphide bond reduction in all living organisms. Although catalysis is thought to proceed through a substitution nucleophilic bimolecular (SN2) reaction, the role of the enzyme in modulating this chemical reaction is unknown. Here, using single-molecule force-clamp spectroscopy, we investigate the catalytic mechanism of Escherichia coli thioredoxin (Trx). We applied mechanical force in the range of 25–600 pN to a disulphide bond substrate and monitored the reduction of these bonds by individual enzymes. We detected two alternative forms of the catalytic reaction, the first requiring a reorientation of the substrate disulphide bond, causing a shortening of the substrate polypeptide by 0.79 ± 0.09 Å (± s.e.m.), and the second elongating the substrate disulphide bond by 0.17 ± 0.02 Å (± s.e.m.). These results support the view that the Trx active site regulates the geometry of the participating sulphur atoms with sub-ångström precision to achieve efficient catalysis. Our results indicate that substrate conformational changes may be important in the regulation of Trx activity under conditions of oxidative stress and mechanical injury, such as those experienced in cardiovascular disease. Furthermore, single-molecule atomic force microscopy techniques, as shown here, can probe dynamic rearrangements within an enzyme’s active site during catalysis that cannot be resolved with any other current structural biological technique.
- Subjects
THIOREDOXIN; CATALYSIS; NUCLEOPHILIC reactions; BIMOLECULAR collisions; CHEMICAL reactions; ESCHERICHIA coli; CARDIOVASCULAR diseases; ATOMIC force microscopy; OXIDATIVE stress
- Publication
Nature, 2007, Vol 450, Issue 7166, p124
- ISSN
0028-0836
- Publication type
Article
- DOI
10.1038/nature06231