Detecting Superbubbles in Assembly Graphs
Identifieur interne : 002150 ( Main/Exploration ); précédent : 002149; suivant : 002151Detecting Superbubbles in Assembly Graphs
Auteurs : Taku Onodera [Japon] ; Kunihiko Sadakane [Japon] ; Tetsuo Shibuya [Japon]Source :
- Lecture Notes in Computer Science [ 0302-9743 ]
Abstract
Abstract: We introduce a new concept of a subgraph class called a superbubble for analyzing assembly graphs, and propose an efficient algorithm for detecting it. Most assembly algorithms utilize assembly graphs like the de Bruijn graph or the overlap graph constructed from reads. From these graphs, many assembly algorithms first detect simple local graph structures (motifs), such as tips and bubbles, mainly to find sequencing errors. These motifs are easy to detect, but they are sometimes too simple to deal with more complex errors. The superbubble is an extension of the bubble, which is also important for analyzing assembly graphs. Though superbubbles are much more complex than ordinary bubbles, we show that they can be efficiently enumerated. We propose an average-case linear time algorithm (i.e., O(n + m) for a graph with n vertices and m edges) for graphs with a reasonable model, though the worst-case time complexity of our algorithm is quadratic (i.e., O(n(n + m))). Moreover, the algorithm is practically very fast: Our experiments show that our algorithm runs in reasonable time with a single CPU core even against a very large graph of a whole human genome.
Url:
DOI: 10.1007/978-3-642-40453-5_26
Affiliations:
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Most assembly algorithms utilize assembly graphs like the de Bruijn graph or the overlap graph constructed from reads. From these graphs, many assembly algorithms first detect simple local graph structures (motifs), such as tips and bubbles, mainly to find sequencing errors. These motifs are easy to detect, but they are sometimes too simple to deal with more complex errors. The superbubble is an extension of the bubble, which is also important for analyzing assembly graphs. Though superbubbles are much more complex than ordinary bubbles, we show that they can be efficiently enumerated. We propose an average-case linear time algorithm (i.e., O(n + m) for a graph with n vertices and m edges) for graphs with a reasonable model, though the worst-case time complexity of our algorithm is quadratic (i.e., O(n(n + m))). Moreover, the algorithm is practically very fast: Our experiments show that our algorithm runs in reasonable time with a single CPU core even against a very large graph of a whole human genome.</div></front></TEI><affiliations><list><country><li>Japon</li></country><region><li>Région de Kantō</li></region><settlement><li>Tokyo</li></settlement><orgName><li>Université de Tokyo</li></orgName></list><tree><country name="Japon"><region name="Région de Kantō"><name sortKey="Onodera, Taku" sort="Onodera, Taku" uniqKey="Onodera T" first="Taku" last="Onodera">Taku Onodera</name></region><name sortKey="Onodera, Taku" sort="Onodera, Taku" uniqKey="Onodera T" first="Taku" last="Onodera">Taku Onodera</name><name sortKey="Sadakane, Kunihiko" sort="Sadakane, Kunihiko" uniqKey="Sadakane K" first="Kunihiko" last="Sadakane">Kunihiko Sadakane</name><name sortKey="Sadakane, Kunihiko" sort="Sadakane, Kunihiko" uniqKey="Sadakane K" first="Kunihiko" last="Sadakane">Kunihiko Sadakane</name><name sortKey="Shibuya, Tetsuo" sort="Shibuya, Tetsuo" uniqKey="Shibuya T" first="Tetsuo" last="Shibuya">Tetsuo Shibuya</name><name sortKey="Shibuya, Tetsuo" sort="Shibuya, Tetsuo" uniqKey="Shibuya T" first="Tetsuo" last="Shibuya">Tetsuo Shibuya</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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