Folding and stability of helical proteins: Carp myogen

In this work we use our very simple general representation of protein structures to study the mainly helical protein carp myogen. The representation, which treats the amino acid side-chains as simple spheres, is further simplified by rigidly fixing residues in α-helices. With this model we are able to reproduce the geometry and energetic stability of the native myogen conformation. Studies of the formation of α-helical sub-assemblies showed that the simulated folding of two and four-helix systems worked well, reaching compact native-like conformations with a good rate of success. Greater problems were encountered with the whole molecule (six helices), possibly due to the omission of entropic effects or to simulating the folding too rapidly. Finally, studies of the conformation of a pair of helices when isolated and when part of the whole molecule native conformation showed that long-range interactions have an unexpectedly strong influence on the conformation of the pair of helices.