ab_phd_helix_abstract
Secondary structure prediction of all-helical proteins in two states
Rost, B. & Sander, C.
Protein Engng, 1993, 6, 831-836.
Abstract
Can secondary structure prediction be improved by prediction rules that focus on a particular structural class of proteins? To help answer this question, we have assessed the accuracy of prediction for all-helical proteins, using two conceptually different methods and two levels of description. An overall two-state single residue accuracy of about 80% can be obtained by a neural network, no matter whether it is trained on two states (helix, non-helix), or first trained on three states (helix, strand, loop) and then evaluated on two states. For four test proteins, this is similar to the accuracy obtained with inductive logic programming.
We conclude that on the level of secondary structure, there is no practical advantage in training on two states, especially given the added margin of error in identifying the structural class of a protein. In the further development of these methods, it is increasingly important to focus on aspects of secondary structure that aid in the construction of a correct three-dimensional model, such a the correct placement of segments.