Chaining fragments is a crucial step in genome alignment. Existing chaining algorithms compute a maximum weighted chain with no overlaps allowed between adjacent fragments. In practice, using local alignments as fragments, instead of Maximal Exact Matches (MEMs), generates frequent overlaps between fragments, due to combinatorial reasons and biological factors, i.e., variable tandem repeat structures that differ in number of copies between genomic sequences. In this article, in order to raise this limitation, we formulate a novel definition of a chain, allowing overlaps proportional to the fragments lengths, and exhibit an efficient algorithm for computing such a maximum weighted chain. We tested our algorithm on a dataset composed of 694 g...
Motivation The increasing availability of high-quality genome assemblies raised int...
AbstractWe compare complete genomes from common words denoted MUMs for maximum unique matches. They ...
Assembling DNA fragments based on their overlaps remains the main assembly paradigm with long DNA fr...
International audienceChaining fragments is a crucial step in genome alignment. Existing chaining al...
In the segment-based approach to sequence alignment, nucleic acid, and protein sequence alignments a...
AbstractIn the segment-based approach to sequence alignment, nucleic acid, and protein sequence alig...
Sequence alignment by exact or approximate string matching is one of the fundamental problems in bio...
We consider the problem of estimating the number of sequences overlapping with a certain length fro...
Abstract. For a genomic region containing a tandem gene cluster, a proper set of alignments needs to...
Having found the maximal matches between x and y, we can put some of them together to form a chain. ...
Abstract Background Fast seed-based alignment heuristics such as BLAST and BLAT have become indispen...
Jahn K, Sudek H, Stoye J. Multiple genome comparison based on overlap regions of pairwise local alig...
Chaining algorithms aim to form a semi-global alignment of two sequences based on a set of anchoring...
AbstractUpon completion of the human and mouse genome sequences, world-wide sequencing capacity will...
International audienceWe compare complete genomes from common words denoted MUMs for maximum unique ...
Motivation The increasing availability of high-quality genome assemblies raised int...
AbstractWe compare complete genomes from common words denoted MUMs for maximum unique matches. They ...
Assembling DNA fragments based on their overlaps remains the main assembly paradigm with long DNA fr...
International audienceChaining fragments is a crucial step in genome alignment. Existing chaining al...
In the segment-based approach to sequence alignment, nucleic acid, and protein sequence alignments a...
AbstractIn the segment-based approach to sequence alignment, nucleic acid, and protein sequence alig...
Sequence alignment by exact or approximate string matching is one of the fundamental problems in bio...
We consider the problem of estimating the number of sequences overlapping with a certain length fro...
Abstract. For a genomic region containing a tandem gene cluster, a proper set of alignments needs to...
Having found the maximal matches between x and y, we can put some of them together to form a chain. ...
Abstract Background Fast seed-based alignment heuristics such as BLAST and BLAT have become indispen...
Jahn K, Sudek H, Stoye J. Multiple genome comparison based on overlap regions of pairwise local alig...
Chaining algorithms aim to form a semi-global alignment of two sequences based on a set of anchoring...
AbstractUpon completion of the human and mouse genome sequences, world-wide sequencing capacity will...
International audienceWe compare complete genomes from common words denoted MUMs for maximum unique ...
Motivation The increasing availability of high-quality genome assemblies raised int...
AbstractWe compare complete genomes from common words denoted MUMs for maximum unique matches. They ...
Assembling DNA fragments based on their overlaps remains the main assembly paradigm with long DNA fr...