CLePAPS: Fast Pair Alignment of Protein Structures Based on Conformational Letters

TL;DR

CLePAPS is a fast, efficient protein structure alignment tool that uses conformational letters and a novel scoring approach to improve alignment accuracy without dynamic programming.

Contribution

It introduces a new alignment method based on conformational letters and CLESUM scores, avoiding dynamic programming for faster performance.

Findings

Effective on various protein pairs

Faster than traditional methods

Maintains high alignment accuracy

Abstract

Fast, efficient and reliable algorithms for pairwise alignment of protein structures are in ever increasing demand for analyzing the rapidly growing data of protein structures. CLePAPS is a tool developed for this purpose. It distinguishes itself from other existing algorithms by the use of conformational letters, which are discretized states of 3D segmental structural states. A letter corresponds to a cluster of combinations of the three angles formed by C_alpha pseudobonds of four contiguous residues. A substitution matrix called CLESUM is available to measure similarity between any two such letters. CLePAPS regards an aligned fragment pair (AFP) as an ungapped string pair with a high sum of pairwise CLESUM scores. Using CLESUM scores as the similarity measure, CLePAPS searches for AFPs by simple string comparison. The transformation which best superimposes a highly similar AFP can be used to superimpose the structure pairs under comparison. A highly scored AFP which is consistent with several other AFPs determines an initial alignment. CLePAPS then joins consistent AFPs guided by their similarity scores to extend the alignment by several `zoom-in' iteration steps. A follow-up refinement produces the final alignment. CLePAPS does not implement dynamic programming. The utility of CLePAPS is tested on various protein structure pairs.