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Computational chemistry / Gillespie algorithm / Gene regulatory network / Stochastic simulation / Chemical reaction / Markov chain / Thorn / Exponential growth / Statistics / Stochastic processes / Monte Carlo methods


Cellular growth and division in the Gillespie algorithm T. Lu, D. Volfson, L. Tsimring and J. Hasty Abstract: Recent experimental studies elucidating the importance of noise in gene regulation have ignited widespread int
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Document Date: 2013-10-11 13:34:13

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University of California / /

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stochastic chemical kinetics / chemical systems / biochemical systems / cellular systems / protein-protein interaction networks / chemical system / chemical reaction / stochastic simulation algorithm / online http /

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NSF Division of Bioengineering / Department of Physics / Institute for Nonlinear Science / Alfred P. Sloan Foundation / Department of Bioengineering / University of California / San Diego / NSF Division of Molecular and Cellular Bioscience / /

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Marcel Dekker / Nat / Peter Wolynes / /

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Alberta / M.B. / New York / California / /

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Bioinformatics / ATG algorithm / modified Direct Gillespie algorithm / Gillespie algorithm / generalised algorithm / DNA binding / ETG algorithms / Gillespie-type algorithm / adiabatic Gillespie algorithm / ATG / two algorithms / so-called Direct Gillespie algorithm / stochastic simulation algorithm / 3 Modified Gillespie algorithm / ETG algorithm / gene expression / adiabatic Gillespie algorithms / modified algorithm / http / simulation / Gillespie algorithms / /

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