Multiple sequence alignment using partial order graphs
University of California, Los Angeles
Abstract
MOTIVATION: Progressive Multiple Sequence Alignment (MSA) methods depend on reducing an MSA to a linear profile for each alignment step. However, this leads to loss of information needed for accurate alignment, and gap scoring artifacts. RESULTS: We present a graph representation of an MSA that can itself be aligned directly by pairwise dynamic programming, eliminating the need to reduce the MSA to a profile. This enables our algorithm (Partial Order Alignment (POA)) to guarantee that the optimal alignment of each new sequence versus each sequence in the MSA will be considered. Moreover, this algorithm introduces a new edit operator, homologous recombination, important for multidomain sequences. The algorithm…
Citation impact
- FWCI
- 8.40
- Percentile
- 100%
- References
- 25
Authors
3Topics & keywords
- Multiple sequence alignment
- Pentium
- Sequence alignment
- Computer science
- Dynamic programming
- Pairwise comparison
- Sequence (biology)
- Algorithm