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Sequence alignment
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===Assessment of significance=== Sequence alignments are useful in bioinformatics for identifying sequence similarity, producing phylogenetic trees, and developing homology models of protein structures. However, the biological relevance of sequence alignments is not always clear. Alignments are often assumed to reflect a degree of evolutionary change between sequences descended from a common ancestor; however, it is formally possible that [[convergent evolution]] can occur to produce apparent similarity between proteins that are evolutionarily unrelated but perform similar functions and have similar structures. In database searches such as BLAST, statistical methods can determine the likelihood of a particular alignment between sequences or sequence regions arising by chance given the size and composition of the database being searched. These values can vary significantly depending on the search space. In particular, the likelihood of finding a given alignment by chance increases if the database consists only of sequences from the same organism as the query sequence. Repetitive sequences in the database or query can also distort both the search results and the assessment of statistical significance; BLAST automatically filters such repetitive sequences in the query to avoid apparent hits that are statistical artifacts. Methods of statistical significance estimation for gapped sequence alignments are available in the literature.<ref name="ortet"/><ref name=altschul>{{cite book|author1=Altschul SF |author2=Gish W |chapter=Local alignment statistics |title=Computer Methods for Macromolecular Sequence Analysis | year=1996 | volume=266 | pages = 460β480|doi=10.1016/S0076-6879(96)66029-7|pmid=8743700 |series=Methods in Enzymology|isbn=9780121821678}}</ref><ref name=hartmann>{{cite journal| author=Hartmann AK| year=2002| title=Sampling rare events: statistics of local sequence alignments| journal= Phys. Rev. E| volume=65| page=056102|doi=10.1103/PhysRevE.65.056102| pmid=12059642| issue=5|arxiv=cond-mat/0108201|bibcode=2002PhRvE..65e6102H| s2cid=193085}}</ref><ref name=newberg>{{cite journal| author=Newberg LA | year=2008 | title=Significance of gapped sequence alignments | journal= J Comput Biol| volume=15| pages=1187β1194 | pmid = 18973434 | doi=10.1089/cmb.2008.0125| issue=9| pmc=2737730}}</ref><ref name=eddy>{{cite journal| author=Eddy SR| year=2008 | title=A probabilistic model of local sequence alignment that simplifies statistical significance estimation | journal= PLOS Comput Biol | volume=4| editor1-first=Burkhard| pages=e1000069 | pmid = 18516236| editor1-last=Rost | doi=10.1371/journal.pcbi.1000069| issue=5| pmc=2396288| last2=Rost| first2=Burkhard| bibcode=2008PLSCB...4E0069E| s2cid=15640896 | doi-access=free }}</ref><ref name=bastien>{{cite journal|author1=Bastien O |author2=Aude JC |author3=Roy S |author4=Marechal E | year=2004 | title=Fundamentals of massive automatic pairwise alignments of protein sequences: theoretical significance of Z-value statistics | journal= Bioinformatics | volume=20| issue=4| pages=534β537| pmid = 14990449| doi = 10.1093/bioinformatics/btg440 | doi-access=free | citeseerx=10.1.1.602.6979 }}</ref><ref name=agrawal11>{{cite journal|author1=Agrawal A |author2=Huang X | year=2011| title=Pairwise Statistical Significance of Local Sequence Alignment Using Sequence-Specific and Position-Specific Substitution Matrices|journal= IEEE/ACM Transactions on Computational Biology and Bioinformatics| volume=8| pages=194β205|doi=10.1109/TCBB.2009.69|pmid=21071807 | issue=1|s2cid=6559731 }}</ref><ref name=agrawal08>{{cite journal| author1=Agrawal A| author2=Brendel VP| author3=Huang X| year=2008| title=Pairwise statistical significance and empirical determination of effective gap opening penalties for protein local sequence alignment| journal=International Journal of Computational Biology and Drug Design| volume=1| pages=347β367| doi=10.1504/IJCBDD.2008.022207| pmid=20063463| url=http://inderscience.metapress.com/content/1558538106522500/| issue=4| url-status=dead| archive-url=https://archive.today/20130128163812/http://inderscience.metapress.com/content/1558538106522500/| archive-date=28 January 2013| df=dmy-all| url-access=subscription}}</ref>
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