Princeton University / Integrative Research Institute / Humboldt University / Kobe University / California Institute of Technology / /
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real estate / reference energy matrix / energy contribution / coli regulatory network / dilute systems / genetic network / gene product / Linear energy model / genetic networks / integer solutions / biological networks / activator binding site / energy matrix / regulatory network / real regulatory networks / biological systems / lowest binding energy / transcriptional machinery / nonnegative integer solutions / repressor binding site / favored energy source / translational machinery / transcription start site / energy contributions / predictive tools / energy / /
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Fermi / /
Organization
California Institute of Technology / Division of Biology / Kobe University / Kobe / Department of Chemical Science and Engineering / Princeton University / Humboldt University / Berlin / Department of Applied Physics / Integrative Research Institute for the Life Sciences / Department of Physics / Institute for Theoretical Biology / /
1 The influence of promoter architectures and regulatory motifs on gene expression in Escherichia coli Mattias Rydenfelt 1,2 , Hernan G. Garcia 3 , Robert Sidney Cox III 4 , and Rob Phillips5,6∗ 1 Department of Physic