Multiple sequence alignment with the Divide-and-Conquer method. Stoye, J. Gene, 211(2):GC45–GC56, 1998.
abstract   bibtex   
An improved algorithm for the simultaneous alignment of multiple protein and nucleic acid sequences, the Divide-and-Conquer Alignment procedure (DCA), is presented. The basic method described in Toenges,et al. (1996) (Toenges, U., Perrey, S.W., Stoye, J., Dress, A.W.M., 1996. A general method for fast multiple sequence alignment. Gene, 172, GC33-GC41) is generalized to align any number of sequences to work arbitrary (e.g. affine linear) gap penalty functions. Also, the practical efficiency of the method is improved so that families of more than 10 sequences can now be aligned simultaneously within a few seconds or minutes. After a brief description of the general method, we assess the time and memory requirements of our implementation of DCA. We present several examples showing that the program is able to deal with real-world alignment problems.
@Article{stoye98multiple,
  author    = {J. Stoye},
  title     = {Multiple sequence alignment with the Divide-and-Conquer method},
  journal   = {Gene},
  year      = {1998},
  volume    = {211},
  number    = {2},
  pages     = {GC45--GC56},
  abstract  = {An improved algorithm for the simultaneous alignment of multiple protein and nucleic acid sequences, the Divide-and-Conquer Alignment procedure (DCA), is presented. The basic method described in Toenges,et al. (1996) (Toenges, U., Perrey, S.W., Stoye, J., Dress, A.W.M., 1996. A general method for fast multiple sequence alignment. Gene, 172, GC33-GC41) is generalized to align any number of sequences to work arbitrary (e.g. affine linear) gap penalty functions. Also, the practical efficiency of the method is improved so that families of more than 10 sequences can now be aligned simultaneously within a few seconds or minutes. After a brief description of the general method, we assess the time and memory requirements of our implementation of DCA. We present several examples showing that the program is able to deal with real-world alignment problems.},
  keywords  = {Genetics; Sequence Alignment; Sequence Analysis; Sequence Homology},
  optmonth  = may,
  owner     = {Sebastian},
  pmid      = {9669886},
  timestamp = {2006.12.30},
}

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