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Knots in Rings: THE CIRCULAR KNOTTED PROTEIN MOMORDICA COCHINCHINENSIS TRYPSIN INHIBITOR-II FOLDS VIA A STABLE TWO-DISULFIDE INTERMEDIATE.

Authors :
Čemažar, Maša
Daly, Norelle L.
Häggblad, Sara
Kai Pong Lo
Yulyaningsih, Ernie
Craik, David J.
Source :
Journal of Biological Chemistry. 3/24/2006, Vol. 281 Issue 12, p8224-8232. 9p. 7 Diagrams, 2 Charts, 2 Graphs.
Publication Year :
2006

Abstract

The aim of this work was to elucidate the oxidative folding mechanism of the macrocyclic cystine knot protein MCoTI–II. We aimed to investigate how the six-cysteine residues distributed on the circular backbone of the reduced unfolded peptide recognize their correct partner and join up to form a complex cystine-knotted topology. To answer this question, we studied the oxidative folding of the naturally occurring peptide using a range of spectroscopic methods. For both oxidative folding and reductive unfolding, the same disulfide intermediate species was prevalent and was characterized to be a native-like two-disulfide intermediate in which the Cys¹–Cys18 disulfide bond was absent. Overall, the folding pathway of this head-to-tail cyclized protein was found to be similar to that of linear cystine knot proteins from the squash family of trypsin inhibitors. However, the pathway differs in an important way from that of the cyclotide kalata B1, in that the equivalent two-disulfide intermediate in that case is not a direct precursor of the native protein. The size of the embedded ring within the cystine knot motif appears to play a crucial role in the folding pathway. Larger rings contribute to the independence of disulfides and favor an on-pathway native-like intermediate that has a smaller energy barrier to cross to form the native fold. The fact that macrocyclic proteins are readily able to fold to a complex knotted structure in vitro in the absence of chaperones makes them suitable as protein engineering scaffolds that have remarkable stability. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219258
Volume :
281
Issue :
12
Database :
Academic Search Index
Journal :
Journal of Biological Chemistry
Publication Type :
Academic Journal
Accession number :
20448329
Full Text :
https://doi.org/10.1074/jbc.M513399200