Modeling of a five-stranded coiled coil structure for the assembly domain of the cartilage oligomeric matrix protein

The three-dimensional structure of the assembly domain of the cartilage oligomeric matrix protein (COMP) has been modeled. The model demonstrates a parallel five-stranded coiled coil and fits well with a large amount of experimental data that describe the oligomerization state, the a-helical conformation, the helix directionality and the properties of the (abcdefg), repeat sequence containing apolar residues at (a) a n d (d) positions. Comparison of the pentamer model with the known dimer, trimer, and tetramer coiled coils revealed interactions that could mediate the switch to the formation of the pentamer coiled coil. The most distinctive feature of the pentamer model involves ion pair interactions. Charged side chains of the pentamer can form (f-g), (f-b'), and (e-c') interhelical ion pairs, which are neither experimentally observed nor modeled in the di-, tri-, and tetramers. A polar glutamine residue could be adopted at a n interior (d) position of the modeled structure due to the formation of a symmetrical network of buried hydrogen bonds between five such glutamines. The pentamer model contains an axial cavity that can accept water molecules. Conformational analysis was carried out in an attempt to determine the three-dimensional structure of the disulfide bonded C-terminal region of the pentamer. Recent data on crystallization of the COMP assembly domain (Efimov et al., Proteins 24:259-262, 1996) indicate that the prediction can be tested experimentally in the near future. o 19% Wiley-Liss, Inc.