AbstractWe consider the problem of multiple sequence alignment: given k sequences of length at most n and a certain scoring function, find an alignment that minimizes the corresponding “sum of pairs” distance score.We generalize the divide-and-conquer technique described in [1,2], and present new ideas on how to use efficient search strategies for saving computer memory and accelerating the procedure for three or more sequences. Resulting running times and memory usage are shown for several test cases
Multiple Sequence Alignment (MSA) is one of the most fundamental problems in computational molecular...
AbstractThe problem of multiple sequence alignment is recast as an optimization problem using Markov...
Stoye J. Multiple sequence alignment with the Divide-and-Conquer method. Gene. 1998;211(2):GC45-GC56...
AbstractWe consider the problem of multiple sequence alignment: given k sequences of length at most ...
Stoye J, Perrey SW, Dress A. Improving the divide-and-conquer approach to sum-of-pairs multiple sequ...
Reinert K, Stoye J, Will T. An iterative method for faster sum-of-pairs multiple sequence alignment....
AbstractWe consider the problem of aligning of k sequences of length n. The cost function is sum of ...
Accepted for publication in Journal of Computational Biology Alignment of sequences is an important ...
AbstractThis paper analyzes the computational complexity of computing the optimal alignment of a set...
An essential tool in biology is the alignment of multiple sequences. Biologists use multiple sequenc...
Abstract. Multiple Sequence Alignment (MSA) is one of the most fundamen-tal problems in computationa...
Dress A, Füllen G, Perrey S. A Divide and Conquer Approach to Multiple Alignment. In: Rawlings C, Cl...
Tönges U, Perrey SW, Stoye J, Dress A. A general method for fast multiple sequence alignment. Gene. ...
AbstractThe multiple alignment of the sequences of DNA and proteins is applicable to various importa...
Stoye J, Dress A, Perrey SW. Improving the Divide-and-Conquer Approach to Sum-of-Pairs Multiple Sequ...
Multiple Sequence Alignment (MSA) is one of the most fundamental problems in computational molecular...
AbstractThe problem of multiple sequence alignment is recast as an optimization problem using Markov...
Stoye J. Multiple sequence alignment with the Divide-and-Conquer method. Gene. 1998;211(2):GC45-GC56...
AbstractWe consider the problem of multiple sequence alignment: given k sequences of length at most ...
Stoye J, Perrey SW, Dress A. Improving the divide-and-conquer approach to sum-of-pairs multiple sequ...
Reinert K, Stoye J, Will T. An iterative method for faster sum-of-pairs multiple sequence alignment....
AbstractWe consider the problem of aligning of k sequences of length n. The cost function is sum of ...
Accepted for publication in Journal of Computational Biology Alignment of sequences is an important ...
AbstractThis paper analyzes the computational complexity of computing the optimal alignment of a set...
An essential tool in biology is the alignment of multiple sequences. Biologists use multiple sequenc...
Abstract. Multiple Sequence Alignment (MSA) is one of the most fundamen-tal problems in computationa...
Dress A, Füllen G, Perrey S. A Divide and Conquer Approach to Multiple Alignment. In: Rawlings C, Cl...
Tönges U, Perrey SW, Stoye J, Dress A. A general method for fast multiple sequence alignment. Gene. ...
AbstractThe multiple alignment of the sequences of DNA and proteins is applicable to various importa...
Stoye J, Dress A, Perrey SW. Improving the Divide-and-Conquer Approach to Sum-of-Pairs Multiple Sequ...
Multiple Sequence Alignment (MSA) is one of the most fundamental problems in computational molecular...
AbstractThe problem of multiple sequence alignment is recast as an optimization problem using Markov...
Stoye J. Multiple sequence alignment with the Divide-and-Conquer method. Gene. 1998;211(2):GC45-GC56...