Maximum common subgraph: some upper bound and lower bound results
X Huang, J Lai, SF Jennings - BMC bioinformatics, 2006 - Springer
X Huang, J Lai, SF Jennings
BMC bioinformatics, 2006•SpringerBackground Structure matching plays an important part in understanding the functional role
of biological structures. Bioinformatics assists in this effort by reformulating this process into
a problem of finding a maximum common subgraph between graphical representations of
these structures. Among the many different variants of the maximum common subgraph
problem, the maximum common induced subgraph of two graphs is of special interest.
Results Based on current research in the area of parameterized computation, we derive a …
of biological structures. Bioinformatics assists in this effort by reformulating this process into
a problem of finding a maximum common subgraph between graphical representations of
these structures. Among the many different variants of the maximum common subgraph
problem, the maximum common induced subgraph of two graphs is of special interest.
Results Based on current research in the area of parameterized computation, we derive a …
Background
Structure matching plays an important part in understanding the functional role of biological structures. Bioinformatics assists in this effort by reformulating this process into a problem of finding a maximum common subgraph between graphical representations of these structures. Among the many different variants of the maximum common subgraph problem, the maximum common induced subgraph of two graphs is of special interest.
Results
Based on current research in the area of parameterized computation, we derive a new lower bound for the exact algorithms of the maximum common induced subgraph of two graphs which is the best currently known. Then we investigate the upper bound and design techniques for approaching this problem, specifically, reducing it to one of finding a maximum clique in the product graph of the two given graphs. Considering the upper bound result, the derived lower bound result is asymptotically tight.
Conclusion
Parameterized computation is a viable approach with great potential for investigating many applications within bioinformatics, such as the maximum common subgraph problem studied in this paper. With an improved hardness result and the proposed approaches in this paper, future research can be focused on further exploration of efficient approaches for different variants of this problem within the constraints imposed by real applications.
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