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Improvements in structural alignment methods constitute an active area of research, and new or modified methods are often proposed that are claimed to offer advantages over the older and more widely distributed techniques. A recent example, TM-align, uses a novel method for weighting its distance matrix, to which standard [[dynamic programming]] is then applied.<ref name="ZhangTMalign"/><ref name="ZhangTMscore"/> The weighting is proposed to accelerate the convergence of dynamic programming and correct for effects arising from alignment lengths. In a benchmarking study, TM-align has been reported to improve in both speed and accuracy over DALI and CE.<ref name="ZhangTMalign"/>
Other promising methods of structural alignment are local structural alignment methods. These provide comparison of pre-selected parts of proteins (e.g. binding sites, user-defined structural motifs) <ref>{{cite journal|author1=Stefano Angaran |author2=[[Mary Ellen Bock]] |author3=Claudio Garutti |author4=Concettina Guerra1 |title=MolLoc: a web tool for the local structural alignment of molecular surfaces|journal=Nucleic Acids Research|date=2009|volume=37 |issue=Web Server issue |pmc=2703929 |pmid=19465382 |doi=10.1093/nar/gkp405 |pages=W565–70}}</ref><ref>{{cite journal|author1=Gaëlle Debret |author2=Arnaud Martel |author3=Philippe Cuniasse |title=RASMOT-3D PRO: a 3D motif search webserver|journal=Nucleic Acids Research|date=2009|volume=37 |issue=Web Server issue |pmc=2703991 |pmid=19417073 |doi=10.1093/nar/gkp304 |pages=W459–64}}</ref><ref name=Shulman2008>{{cite journal|author1=Alexandra Shulman-Peleg |author2=Maxim Shatsky |author3=Ruth Nussinov |author4=Haim J. Wolfson |title=MultiBind and MAPPIS: webservers for multiple alignment of protein 3D-binding sites and their interactions|journal=Nucleic Acids Research|date=2008|volume=36 |issue=Web Server issue |pmc=2447750 |pmid=18467424 |doi=10.1093/nar/gkn185 |pages=W260–4}}</ref> against binding sites or whole-protein structural databases. The MultiBind and MAPPIS servers <ref name=Shulman2008 /><ref name=Shulman2007>{{cite journal|author1=Alexandra Shulman-Peleg |author2=Maxim Shatsky |author3=Ruth Nussinov |author4=Haim J Wolfson |title=Spatial chemical conservation of hot spot interactions in protein-protein complexes |journal=BMC Biology|date=2007|volume=5 |issue=43 |pages=43 |doi=10.1186/1741-7007-5-43 |pmid=17925020 |pmc=2231411 }}</ref> allow the identification of common spatial arrangements of physicochemical properties such as H-bond donor, acceptor, aliphatic, aromatic or hydrophobic in a set of user provided protein binding sites defined by interactions with small molecules (MultiBind) or in a set of user-provided protein–protein interfaces (MAPPIS). Others provide comparison of entire protein structures <ref>{{cite journal|author1=Gabriele Ausiello |author2=Pier Federico Gherardini |author3=Paolo Marcatili |author4=Anna Tramontano |author5=Allegra Via |author6=Manuela Helmer-Citterich |title=FunClust: a web server for the identification of structural motifs in a set of non-homologous protein structures |journal=BMC Biology|date=2008|volume=9|pages=S2 |doi=10.1186/1471-2105-9-S2-S2 |pmid=18387204 |pmc=2323665 }}</ref> against a number of user submitted structures or against a large database of protein structures in reasonable time ([[ProBiS]]<ref>{{cite journal |author1=Janez Konc |author2=Dušanka Janežič |title=ProBiS algorithm for detection of structurally similar protein binding sites by local structural alignment |journal=Bioinformatics |volume=26 |issue=9 |pages=1160–1168 |year=2010 | url
However, as algorithmic improvements and computer performance have erased purely technical deficiencies in older approaches, it has become clear that there is no one universal criterion for the 'optimal' structural alignment. TM-align, for instance, is particularly robust in quantifying comparisons between sets of proteins with great disparities in sequence lengths, but it only indirectly captures hydrogen bonding or secondary structure order conservation which might be better metrics for alignment of evolutionarily related proteins. Thus recent developments have focused on optimizing particular attributes such as speed, quantification of scores, correlation to alternative gold standards, or tolerance of imperfection in structural data or ab initio structural models. An alternative methodology that is gaining popularity is to use the ''consensus'' of various methods to ascertain proteins structural similarities.<ref name="Bartheletal"/>
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