Existing dynamic-programming algorithms for identifying similar regions of two sequences require time and space proportional to the product of the sequence lengths. Often this space requirement is more limiting than the time requirement. We describe a dynamic-programming local-similarity algorithm that needs only space proportional to the sum of the sequence lengths. The method can also find repeats within a single long sequence. To illustrate the algorithm\u27s potential, we discuss comparison of a 73 360 nucleotide sequence containing the human β-like globin gene cluster and a corresponding 44 594 nucleotide sequence for rabbit, a problem well beyond the capabilities of other dynamic-programming software. © 1989 IRL Press
Graduation date: 1993As the volume of genetic sequence data increases due to improved sequencing\ud ...
Homology search finds similar segments between two biological sequences, such as DNA or protein sequ...
Abslract- DNA matching is an important key to understanding genomes, evolution, relationships betwee...
Dynamic programming algorithms to determine similar regions of two sequences are useful for analyzin...
The local similarity problem is to determine the similar regions within two given sequences. We rece...
There exist many computational methods for finding similarity in gene sequence, finding suitable met...
AbstractDynamic programming algorithms to determine similar regions of two sequences are useful for ...
We study the problem of computing optimal spaced seeds for identifying homologous coding DNA sequen...
The tremendous quantity and quality of data obtained by conformations of DNA and protein sequences m...
The search for local similarities in sequences is a classical problem in biology, and several method...
The Smith-Waterman algorithm for local sequence alignment is one of the most important techniques in...
Motivation: Homologous sequences are sometimes similar over some regions but different over other re...
Abstract. Local similarity computation between two sequences permits detecting all the relevant alig...
The minimal-length encoding approach is applied to define concept of sequence similarity. A sequence...
Finding the sequence similarity between two genetic codes is an important problem in computational b...
Graduation date: 1993As the volume of genetic sequence data increases due to improved sequencing\ud ...
Homology search finds similar segments between two biological sequences, such as DNA or protein sequ...
Abslract- DNA matching is an important key to understanding genomes, evolution, relationships betwee...
Dynamic programming algorithms to determine similar regions of two sequences are useful for analyzin...
The local similarity problem is to determine the similar regions within two given sequences. We rece...
There exist many computational methods for finding similarity in gene sequence, finding suitable met...
AbstractDynamic programming algorithms to determine similar regions of two sequences are useful for ...
We study the problem of computing optimal spaced seeds for identifying homologous coding DNA sequen...
The tremendous quantity and quality of data obtained by conformations of DNA and protein sequences m...
The search for local similarities in sequences is a classical problem in biology, and several method...
The Smith-Waterman algorithm for local sequence alignment is one of the most important techniques in...
Motivation: Homologous sequences are sometimes similar over some regions but different over other re...
Abstract. Local similarity computation between two sequences permits detecting all the relevant alig...
The minimal-length encoding approach is applied to define concept of sequence similarity. A sequence...
Finding the sequence similarity between two genetic codes is an important problem in computational b...
Graduation date: 1993As the volume of genetic sequence data increases due to improved sequencing\ud ...
Homology search finds similar segments between two biological sequences, such as DNA or protein sequ...
Abslract- DNA matching is an important key to understanding genomes, evolution, relationships betwee...