The application of Needleman–Wunsch alignment techniques to biological sequences is complicated by two serious problems when the sequences are long: the running time, which scales as the product of the lengths of sequences, and the difficulty in obtaining suitable parameters that produce meaningful alignments. The running time problem is often corrected by reducing the search space, using techniques such as banding, or chaining of high-scoring pairs. The parameter problem is more difficult to fix, partly because the probabilistic model, which Needleman–Wunsch is equivalent to, does not capture a key feature of biological sequence alignments, namely the alternation of conserved blocks and seemingly unrelated nonconserved segments. We present...
AbstractThe multiple alignment of the sequences of DNA and proteins is applicable to various importa...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
The application of Needleman–Wunsch alignment techniques to biological sequences is complicated by t...
The application of Needleman-Wunsch alignment techniques to biological sequences is complicated by t...
With more and more biological sequences available, sequence analyses have become very important in b...
Biological pairwise sequence alignment can be used as a method for arranging two biological sequence...
The paper considers solving the multiple sequence alignment, a combinatorial challenge in computatio...
Abstract. Phylogeny and alignment estimation are two important and closely related biological prob-l...
Multiple Sequence Alignment (MSA) is one of the basic tool for interpreting the information obtained...
The study and comparison of sequences of characters from a finite alphabet is relevant to various ar...
We present a new stochastic method for finding the optimal alignment of DNA sequences. The method wo...
Background: Sequence alignment has become an indispensable tool in modern molecular biology research...
Motivation: Computationally identifying non-coding RNA regions on the genome has much scope for inve...
Approximate string matching is commonly used to align genetic sequences (DNA or RNA) to determine th...
AbstractThe multiple alignment of the sequences of DNA and proteins is applicable to various importa...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...
The application of Needleman–Wunsch alignment techniques to biological sequences is complicated by t...
The application of Needleman-Wunsch alignment techniques to biological sequences is complicated by t...
With more and more biological sequences available, sequence analyses have become very important in b...
Biological pairwise sequence alignment can be used as a method for arranging two biological sequence...
The paper considers solving the multiple sequence alignment, a combinatorial challenge in computatio...
Abstract. Phylogeny and alignment estimation are two important and closely related biological prob-l...
Multiple Sequence Alignment (MSA) is one of the basic tool for interpreting the information obtained...
The study and comparison of sequences of characters from a finite alphabet is relevant to various ar...
We present a new stochastic method for finding the optimal alignment of DNA sequences. The method wo...
Background: Sequence alignment has become an indispensable tool in modern molecular biology research...
Motivation: Computationally identifying non-coding RNA regions on the genome has much scope for inve...
Approximate string matching is commonly used to align genetic sequences (DNA or RNA) to determine th...
AbstractThe multiple alignment of the sequences of DNA and proteins is applicable to various importa...
With the rapid development of genome sequencing, an ever-increasing number of molecular biology anal...
Molecular evolutionary biology allows us to look into the past by analyzing sequences of amino acids...