Abstract: Methods, systems, algorithms and means for describing, analyzing and predicting protein folding motifs and other structures are provided. In one aspect, the Protein Folding Shape Code (PFSC) methods, systems, algorithms and means of the present invention apply generally to all of the categories of protein analysis and description, and are especially relevant to the geometric analysis and descriptions of proteins from their respective sequences or sequence portions. In a novel approach, the present inventions render analysis with respect to the alpha carbons of five-amino acid elements of a protein, utilizing available data to derive torsion angles and pitch distances, to thereby generate a series of overlapping analysis that can be expressed by a plurality of 27 vectors.

Abstract: Methods, systems, algorithms and means for describing, analyzing and predicting protein folding motifs and other structures are provided. In one aspect, the Protein Folding Shape Code (PFSC) methods, systems, algorithms and means of the present invention apply generally to all of the categories of protein analysis and description, and are especially relevant to the geometric analyses and descriptions of proteins from their respective sequences or sequence portions. In a novel approach, the present inventions render analyses with respect to the alpha carbons of five-amino acid elements of a protein, utilizing available data to derive torsion angles and pitch distances, to thereby generate a series of overlapping analyses that can be expressed by a plurality of 27 vectors.