International audienceWe propose a general approach to compute the seed sensitivity, that can be applied to different definitions of seeds. It treats separately three components of the seed sensitivity problem--a set of target alignments, an associated probability distribution, and a seed model--that are specified by distinct finite automata. The approach is then applied to a new concept of subset seeds for which we propose an efficient automaton construction. Experimental results confirm that sensitive subset seeds can be efficiently designed using our approach, and can then be used in similarity search producing better results than ordinary spaced seeds
We apply the concept of subset seeds to similarity search in protein sequences. The main question st...
Motivation: Standard search techniques for DNA repeats start by identifying small matching words, or...
International audienceThe seeding technique became central in the theory of sequence alignment and t...
International audienceWe propose a general approach to compute the seed sensitivity, that can be app...
We propose a general approach to compute the seed sensitivity, that can be applied to different defi...
We propose a general approach to compute the seed sensitivity, that can be applied to different def...
We propose a general approach to compute the seed sensitivity, that can be applied to different defi...
International audienceWe study the pattern matching automaton introduced in [KucherovNoeRoytbergJBCB...
International audienceWe apply the concept of subset seeds proposed in [1] to similarity search in p...
ISBN: 0-7695-2173-8International audienceWe address the problem of estimating the sensitivity of see...
Spaced seeds are a fundamental tool for similarity search in biosequences. The best sensitivity/sele...
We address the problem of estimating the sensitivity of seed-based similarity search algorithms. In ...
We address the problem of measuring the sensitivity of seed-based similarity search algorithms. In c...
AbstractLarge-scale comparison of genomic DNA is of fundamental importance in annotating functional ...
We apply the concept of subset seeds to similarity search in protein sequences. The main question st...
We apply the concept of subset seeds to similarity search in protein sequences. The main question st...
Motivation: Standard search techniques for DNA repeats start by identifying small matching words, or...
International audienceThe seeding technique became central in the theory of sequence alignment and t...
International audienceWe propose a general approach to compute the seed sensitivity, that can be app...
We propose a general approach to compute the seed sensitivity, that can be applied to different defi...
We propose a general approach to compute the seed sensitivity, that can be applied to different def...
We propose a general approach to compute the seed sensitivity, that can be applied to different defi...
International audienceWe study the pattern matching automaton introduced in [KucherovNoeRoytbergJBCB...
International audienceWe apply the concept of subset seeds proposed in [1] to similarity search in p...
ISBN: 0-7695-2173-8International audienceWe address the problem of estimating the sensitivity of see...
Spaced seeds are a fundamental tool for similarity search in biosequences. The best sensitivity/sele...
We address the problem of estimating the sensitivity of seed-based similarity search algorithms. In ...
We address the problem of measuring the sensitivity of seed-based similarity search algorithms. In c...
AbstractLarge-scale comparison of genomic DNA is of fundamental importance in annotating functional ...
We apply the concept of subset seeds to similarity search in protein sequences. The main question st...
We apply the concept of subset seeds to similarity search in protein sequences. The main question st...
Motivation: Standard search techniques for DNA repeats start by identifying small matching words, or...
International audienceThe seeding technique became central in the theory of sequence alignment and t...