AbstractThe problems of finding maximal and minimal equivalent representations for gapped and non-gapped motifs as well as finding motifs that characterize a fixed set of occurrence locations for a given string are studied. We apply two equivalence relations on representations. The first one is the well-known occurrence-equivalence of motifs. The second equivalence is introduced for patterns of occurrence locations, to characterize such patterns by motifs. For both equivalences, quadratic-time algorithms are given for finding a maximal representative of an equivalence class. Finding a minimal representative is shown to be NP-complete in both cases. For non-gapped motifs suffix-tree-based linear-time algorithms are given for finding maximal ...
We examine the problem of extracting maximal irredundant motifs from a string. A combinatorial argum...
Given an input sequence of data, a motif is a repeating pattern, possibly interspersed with `dont ca...
Frequent patterns (motifs) in biological sequences are good candidates to correspond to structural o...
AbstractThe problems of finding maximal and minimal equivalent representations for gapped and non-ga...
AbstractA gapped pattern is a sequence consisting of regular alphabet symbols and of joker symbols t...
AbstractTwo substrings of a given text string are called synchronous (occurrence-equivalent) if thei...
Finding motifs in biological sequences is one of the most intriguing problems for string algorithm d...
AbstractFinding motifs in biological sequences is one of the most intriguing problems for string alg...
Finding motifs in biological sequences is one of the most intriguing problems for string algo-rithms...
We present three linear algorithms for as many formulations of the problem of finding motifs with ga...
Motif patterns consisting of sequences of intermixed solid and don't-care characters have been intro...
We present three linear algorithms for as many formulations of the problem of finding motifs with ga...
Motif patterns consisting of sequences of intermixed solid and don't-care characters have been intro...
Abstract. We present new algorithms for the problem of multiple string matching of gapped patterns, ...
AbstractMotif discovery is the problem of finding local patterns or motifs from a set of unlabeled s...
We examine the problem of extracting maximal irredundant motifs from a string. A combinatorial argum...
Given an input sequence of data, a motif is a repeating pattern, possibly interspersed with `dont ca...
Frequent patterns (motifs) in biological sequences are good candidates to correspond to structural o...
AbstractThe problems of finding maximal and minimal equivalent representations for gapped and non-ga...
AbstractA gapped pattern is a sequence consisting of regular alphabet symbols and of joker symbols t...
AbstractTwo substrings of a given text string are called synchronous (occurrence-equivalent) if thei...
Finding motifs in biological sequences is one of the most intriguing problems for string algorithm d...
AbstractFinding motifs in biological sequences is one of the most intriguing problems for string alg...
Finding motifs in biological sequences is one of the most intriguing problems for string algo-rithms...
We present three linear algorithms for as many formulations of the problem of finding motifs with ga...
Motif patterns consisting of sequences of intermixed solid and don't-care characters have been intro...
We present three linear algorithms for as many formulations of the problem of finding motifs with ga...
Motif patterns consisting of sequences of intermixed solid and don't-care characters have been intro...
Abstract. We present new algorithms for the problem of multiple string matching of gapped patterns, ...
AbstractMotif discovery is the problem of finding local patterns or motifs from a set of unlabeled s...
We examine the problem of extracting maximal irredundant motifs from a string. A combinatorial argum...
Given an input sequence of data, a motif is a repeating pattern, possibly interspersed with `dont ca...
Frequent patterns (motifs) in biological sequences are good candidates to correspond to structural o...