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Title: Random circular permutation of DsbA reveals segments that are essential for protein folding and stability. Author: Hennecke J, Sebbel P, Glockshuber R. Journal: J Mol Biol; 1999 Mar 05; 286(4):1197-215. PubMed ID: 10047491. Abstract: One of the key questions in protein folding is whether polypeptide chains require unique nucleation sites to fold to the native state. In order to identify possible essential polypeptide segments for folding, we have performed a complete circular permutation analysis of a protein in which the natural termini are in close proximity. As a model system, we used the disulfide oxidoreductase DsbA from Escherichia coli, a monomeric protein of 189 amino acid residues. To introduce new termini at all possible positions in its polypeptide chain, we generated a library of randomly circularly permuted dsbA genes and screened for active circularly permuted variants in vivo. A total of 51 different active variants were identified. The new termini were distributed over about 70 % of the polypeptide chain, with the majority of them occurring within regular secondary structures. New termini were not found in approximately 30 % of the DsbA sequence which essentially correspond to four alpha-helices of DsbA. Introduction of new termini into these "forbidden segments" by directed mutagenesis yielded proteins with altered overall folds and strongly reduced catalytic activities. In contrast, all active variants analysed so far show structural and catalytic properties comparable with those of DsbA wild-type. We suggest that random circular permutation allows identification of contiguous structural elements in a protein that are essential for folding and stability.[Abstract] [Full Text] [Related] [New Search]