Lakshmanan Kuppusamy scite author profile

A eukaryotic cell contains multiple membrane-bound compartments. Transport vesicles move cargo between these compartments, just as trucks move cargo between warehouses. These processes are regulated by specific molecular interactions, as summarized in the Rothman-Schekman-Sudhof model of vesicle traffic. The whole structure can be represented as a transport graph: each organelle is a node, and each vesicle route is a directed edge. What constraints must such a graph satisfy, if it is to represent a biologically realizable vesicle traffic network? Graph connectedness is an informative feature: 2-connectedness is necessary and sufficient for mass balance, but stronger conditions are required to ensure correct molecular specificity. Here we use Boolean satisfiability (SAT) and model checking as a framework to discover and verify graph constraints. The poor scalability of SAT model checkers often prevents their broad application. By exploiting the special structure of the problem, we scale our model checker to vesicle traffic systems with reasonably large numbers of molecules and compartments. This allows us to test a range of hypotheses about graph connectivity, which can later be proved in full generality by other methods.

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Investigations on the power of matrix insertion-deletion systems with small sizes

Fernau

Kuppusamy

Raman

2017

Nat Comput

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Lakshmanan Kuppusamy

A cooperative game framework for detecting overlapping communities in social networks

A survey on game theoretic models for community detection in social networks

Matrix Insertion-Deletion Systems for Bio-Molecular Structures

Discovering vesicle traffic network constraints by model checking

Investigations on the power of matrix insertion-deletion systems with small sizes

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