• Collective decision making in bacterial viruses 

      Weitz, Joshua S.; Mileyko, Yuriy; Joh, Richard I.; Voit, Eberhard O. (Georgia Institute of TechnologyBiophysical Society, 2008-09)
      For many bacterial viruses, the choice of whether to kill host cells or enter a latent state depends on the multiplicity of coinfection. Here, we present a mathematical theory of how bacterial viruses can make collective ...
    • How many variables? Some comments on the dimensionality of nonlinear systems 

      Voit, Eberhard O. (Georgia Institute of TechnologyWalter de Gruyter, 1992-08)
      While at first glance seemingly obvious, the number of variables in a model is not a priori fixed. For mathematical purposes, it is oftentimes convenient to reduce the number of variables to a minimum, but such reduction ...
    • Identification of neutral sets of biochemical systems models from time series data 

      Vilela, Marco; Vinga, Susana; Grivet, Marco A.; Maia, Mattoso; Voit, Eberhard O.; Almeida, Jonas S. (Georgia Institute of TechnologyBioMed Central, 2009-05)
      Background The major difficulty in modeling biological systems from multivariate time series is the identification of parameter sets that endow a model with dynamical behaviors sufficiently similar to the experimental ...
    • Improved Methods for the Mathematically Controlled Comparison of Biochemical Systems 

      Schwacke, John H.; Voit, Eberhard O. (Georgia Institute of TechnologyBioMed Central Ltd., 2004-06-04)
      The method of mathematically controlled comparison provides a structured approach for the comparison of alternative biochemical pathways with respect to selected functional effectiveness measures. Under this approach, ...
    • Priming nonlinear searches for pathway identification 

      Veflingstad, Siren R.; Almeida, Jonas S.; Voit, Eberhard O. (Georgia Institute of Technology, 2004-09-14)
      Background: Dense time series of metabolite concentrations or of the expression patterns of proteins may be available in the near future as a result of the rapid development of novel, highthroughput experimental techniques. ...
    • Systems Biology—What’s All the Buzz About? 

      Voit, Eberhard O. (Georgia Institute of Technology, 2008)