Hydrophobic core repacking in a coiled-coil dimer via phage display: insights into plasticity and specificity at a protein-protein interface |
| |
Authors: | Lai Jonathan R Fisk John D Weisblum Bernard Gellman Samuel H |
| |
Affiliation: | Graduate Program in Biophysics, University of Wisconsin, Madison, Wisconsin 53706, USA. |
| |
Abstract: | The coiled-coil, which consists of two or more interwoven amphiphilic alpha-helices, is formed by sequences that have a characteristic heptad repeat (abcdefg) where a and d are hydrophobic residues. Most efforts to elucidate the origins of coiled-coil pairing selectivity have focused on electrostatic interactions among side chains that flank the core (positions e and g) and on polar side chains that occur occasionally at core positions. We have used phage display to explore another source of coiled-coil specificity: steric matching among nonpolar side chains in the core. We introduced a destabilizing Leu-->Ala mutation into the core of one helix in a known heterodimer and then screened a phage-based library of potential partner helices in search of compensating mutations. We identified a new heterodimer pair (30 residues/helix) that is comparable in stability to the GCN4-p1 homodimer (33 residues/helix). Furthermore, the Leu-->Ala mutant shows specificity for its phage-derived partner over the original partner despite their similar sequences. These results show that a phage-based approach can provide unique insights on coiled-coil pairing preferences that should facilitate both the analysis of natural sequences and the development of specific dimerization motifs that are orthogonal to one another. |
| |
Keywords: | |
本文献已被 PubMed 等数据库收录! |
|