A frequency domain approach to sensitivity analysis of biochemical networks

Article Abstract:

The sensitivity of a forced oscillating system to step changes in its parameter values, which is an orthogonal approach to that taken is investigated. The theory is presented as a natural extension of the sensitivity theory of biochemical networks, and as such provides generalizations of the summation and connectivity theorems of metabolic control analysis.

Chemistry, Analytic, Analytical chemistry, Parameter estimation, Functions, Orthogonal, Orthogonal functions

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Chemical turbulence and line defects induced by gradient effects in a three-dimensional reaction-diffusion system

Article Abstract:

The experimental observations of chemical turbulence and line defects in a three-dimensional (3-D) reaction-diffusion system were reported. The findings suggested that these transitions are caused by concentration gradients across the three dimensions in the 3-D reaction medium, indicating the observed line defects have a 3-D structure.

Three-dimensional display systems, Three dimensional displays, 3D technology, Diffusion, Diffusion (Physics), Chemical thermodynamics

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Microscopic self-organization in biochemical reactions: a lattice model

Article Abstract:

The interesting spontaneous synchronization of enzymatic turnover cycles is investigated using a lattice model. The results indicate that the microscopic self-organization is realistically possible in actual biochemical systems if enzymatic turnover times have a weak dispersion.

Chemical reactions

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