Mathematics – Algebraic Geometry
Scientific paper
2011-07-31
Mathematics
Algebraic Geometry
18 pages, 2 tables
Scientific paper
Identifying features of molecular regulatory networks is an important problem in systems biology. It has been shown that the combinatorial logic of such networks can be captured in many cases by special functions called nested canalyzing in the context of discrete dynamic network models. It was also shown that the dynamics of networks constructed from such functions has very special properties that are consistent with what is known about molecular networks, and that simplify analysis. It is important to know how restrictive this class of functions is, for instance for the purpose of network reverse-engineering. This paper contains a formula for the number of such functions and a comparison to the class of all functions. In particular, it is shown that, as the number of variables becomes large, the ratio of the number of nested canalyzing functions to the number of all functions converges to zero. This shows that the class of nested canalyzing functions is indeed very restrictive, indicating that molecular networks have very special properties. The principal tool used for this investigation is a description of these functions as polynomials and a parameterization of the class of all such polynomials in terms of relations on their coefficients.
Laubenbacher Reinhard
Murrugarra David
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