MUSTA - A General, Efficient, Automated Method for Multiple Structure Alignment and Detection of Common Motifs: Application to Proteins

TL;DR: A reliable and robust algorithm, MUSTANG (MUltiple STructural AligNment AlGorithm), for the alignment of multiple protein structures, based on the progressive pairwise heuristic, which performs comparably to popular pairwise and multiple structural alignment tools for closely related proteins.

TL;DR: It is shown that hot spots occur predominantly at the interfaces of macromolecular complexes, distinguishing binding sites from the remainder of the surface, Consequently, hot spots can be used to define binding epitopes and a correspondence between energy hot spots and structurally conserved residues is shown.

TL;DR: It is their residue sequence order‐independence that allows application of MultiProt to derive multiple alignments of binding sites and of protein‐protein interfaces, making MultiProt an extremely useful structural tool.

TL;DR: These algorithms use three different methods for determining the number of edge-disjoint embeddings of a subgraph and employ novel algorithms for candidate generation and frequency counting, which allow them to operate on datasets with different characteristics and to quickly prune unpromising subgraphs.

TL;DR: A computer adaptable method for finding similarities in the amino acid sequences of two proteins has been developed and it is possible to determine whether significant homology exists between the proteins to trace their possible evolutionary development.

TL;DR: The Protein Data Bank is a computer-based archival file for macromolecular structures that stores in a uniform format atomic co-ordinates and partial bond connectivities, as derived from crystallographic studies.

TL;DR: An algorithm for finding the least-squares solution of R and T, which is based on the singular value decomposition (SVD) of a 3 × 3 matrix, is presented.

TL;DR: The author examines the importance of (sub)sequence comparison in molecular biology, core string edits, alignments and dynamic programming, and a deeper look at classical methods for exact string matching.