Strong Traces Model of Self-Assembly Polypeptide Structures

A novel self-assembly strategy for polypeptide nanostructure design was presented in [Design of a single-chain polypeptide tetrahedron assembled from coiled-coil segments, Nature Chemical Biology 9 (2013) 362--366]. The first mathematical model (polypeptide nanostructure can naturally be presented as a skeleton graph of a polyhedron) from [Stable traces as a model for self-assembly of polypeptide nanoscale polyhedrons, MATCH Commun. Math. Comput. Chem. 70 (2013) 317-330] introduced stable traces as the appropriate mathematical description, yet we find them deficient in modeling graphs with either very small (less or equal to 2) or large (greater or equal to 6) degree vertices. We introduce strong traces which remedy both of the above mentioned drawbacks. We show that every connected graph admits a strong trace by studying a connection between strong traces and graph embeddings. Further we also characterize graphs which admit parallel (resp. antiparallel) strong traces.