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Peptide 'Velcro': design of a heterodimeric coiled coil.
- Source :
-
Current biology : CB [Curr Biol] 1993 Oct 01; Vol. 3 (10), pp. 658-67. - Publication Year :
- 1993
-
Abstract
- Background: The leucine zipper is a protein structural motif involved in the dimerization of a number of transcription factors. We have previously shown that peptides corresponding to the leucine-zipper region of the Fos and Jun oncoproteins preferentially form heterodimeric coiled coils, and that simple principles involving electrostatic interactions are likely to determine the pairing specificity of coiled coils. A critical test of these principles is to use them as guidelines to design peptides with desired properties.<br />Results: Based on studies of the Fos, Jun and GCN4 leucine zippers, we have designed two peptides that are predominantly unfolded in isolation but which, when mixed, associate preferentially to form a stable, parallel, coiled-coil heterodimer. To favor heterodimer formation, we chose peptide sequences that would be predicted to give destabilizing electrostatic interactions in the homodimers that would be relieved in the heterodimer. The peptides have at least a 10(5)-fold preference for heterodimer formation, and the dissociation constant of the heterodimer in phosphate-buffered saline is approximately 30 nM at pH 7 and 20 degrees C. Studies of the pH and ionic strength dependence of stability confirm that heterodimer formation is favored largely as a result of electrostatic destabilization of the homodimers.<br />Conclusions: Our successful design strategy supports previous conclusions about the mechanism of interaction between the Fos and Jun oncoproteins. These results have implications for protein design, as they show that it is possible to design peptides with simple sequences that have a very high preference to pair with one another. Finally, these sequences with 'Velcro'-like properties may have practical applications, including use as an affinity reagent, in lieu of an epitope tag, or as a way of bringing together two molecules in a cell.
Details
- Language :
- English
- ISSN :
- 0960-9822
- Volume :
- 3
- Issue :
- 10
- Database :
- MEDLINE
- Journal :
- Current biology : CB
- Publication Type :
- Academic Journal
- Accession number :
- 15335856
- Full Text :
- https://doi.org/10.1016/0960-9822(93)90063-t