Sequence Alignment
Sequence alignment is the basic and most widely used method of comparing two or more biological sequences. It can be used as the first step of various sequence analysis tasks to quantify the similarities between the sequences. The goal of sequence alignment is to transform one sequence to another wi...
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| Published in | Distributed and Sequential Algorithms for Bioinformatics Vol. 23; pp. 111 - 133 |
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| Main Author | |
| Format | Book Chapter |
| Language | English |
| Published |
Switzerland
Springer International Publishing AG
2015
Springer International Publishing |
| Series | Computational Biology |
| Subjects | |
| Online Access | Get full text |
| ISBN | 9783319249643 3319249649 |
| ISSN | 1568-2684 |
| DOI | 10.1007/978-3-319-24966-7_6 |
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| Abstract | Sequence alignment is the basic and most widely used method of comparing two or more biological sequences. It can be used as the first step of various sequence analysis tasks to quantify the similarities between the sequences. The goal of sequence alignment is to transform one sequence to another with minimum number of modifications. It can be performed in polynomial time between two sequences but heuristics are commonly used to compare multiple sequences. Global alignment is the process of comparing two or more sequences as a whole and is commonly used for homologous sequences. On the other hand, local alignment aims to find similar subsequences between two or more inputs which may be very diverse when considered as a whole. Pairwise alignment algorithms input two sequences and multiple alignment methods work on a set of sequences. In this chapter; we describe algorithms, methods, and tools for these different forms of sequence alignment starting with sequential algorithms and then we detail distributed versions of these algorithms. |
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| AbstractList | Sequence alignment is the basic and most widely used method of comparing two or more biological sequences. It can be used as the first step of various sequence analysis tasks to quantify the similarities between the sequences. The goal of sequence alignment is to transform one sequence to another with minimum number of modifications. It can be performed in polynomial time between two sequences but heuristics are commonly used to compare multiple sequences. Global alignment is the process of comparing two or more sequences as a whole and is commonly used for homologous sequences. On the other hand, local alignment aims to find similar subsequences between two or more inputs which may be very diverse when considered as a whole. Pairwise alignment algorithms input two sequences and multiple alignment methods work on a set of sequences. In this chapter; we describe algorithms, methods, and tools for these different forms of sequence alignment starting with sequential algorithms and then we detail distributed versions of these algorithms. |
| Author | Erciyes, Kayhan |
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| Copyright | Springer International Publishing Switzerland 2015 |
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| DOI | 10.1007/978-3-319-24966-7_6 |
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| EndPage | 133 |
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| RelatedPersons | Pevzner, Pavel Lengauer, Thomas Linial, Michal Istrail, Sorin Vingron, Martin Stormo, Gary Fitch, Walter M. Shamir, R. Kelso, Janet Dress, Andreas Giegerich, Robert Myers, Gene Troyanskaya, Olga Nowak, Martin Steel, Mike Tavaré, Simon Gusfield, Dan McClure, Marcella Sankoff, David Warnow, Tandy Crippen, G.M. Karlin, Sam Felsenstein, Joseph |
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| Snippet | Sequence alignment is the basic and most widely used method of comparing two or more biological sequences. It can be used as the first step of various sequence... |
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| StartPage | 111 |
| SubjectTerms | Algorithms & data structures Basic Local Alignment Search Tool Global Alignment Life sciences: general issues Maths for computer scientists Message Passing Interface Pairwise Alignment Suffix Tree |
| Title | Sequence Alignment |
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