Biological Regulatory Networks / Do Simplifying Design Principles Underlie Complex Biological Networks / Elsevier Inc. / Cellular Systems / Do We Identify Functional Networks / Stephens / /
Country
United States / /
Currency
pence / /
Event
Movie Release / /
Facility
UCSF Center / Hughes Medical Institute University of California / Peking University / /
IndustryTerm
human regulatory network / synthetic networks / synthetic molecular networks / oscillatory networks / functional networks / sensory systems / search process / enzymatic networks / biochemical systems / network solutions / minimal network / evolutionary solutions / functional network solutions / information-processing functions / bridge that can link theoretical network / higher-order networks / clock-engineering biological systems / bacterial transcription factor network / biological systems / search strategy / plausible solutions / feedback network / molecular networks / transcription factor networks / regulatory networks / human transcription factor network / regulatory systems / synthetic regulatory networks / natural systems / evolved living systems / possible network motif solutions / evolutionary algorithms / in vitro molecular network / possible core networks / straightforward transcription factor networks / synthetic network / similar network / possible molecular networks / molecular systems / signal transduction networks / evolutionary plausible solution / disease networks / chemical paths / macroscopic information processing systems / search problems / random evolutionary search process / diverse and complex regulatory networks / network search approaches / higher-order chemical structures / possible networks / natural oscillator systems / possible molecular solutions / chemical reactivity / transcription networks / transcriptional networks / transcriptional regulatory networks / genetic networks / arbitrary chemical reaction networks / biological networks / bacterial transcriptional networks / higher-performance solutions / minimal systems / simpler core networks / arbitrary and unique solutions / genetic algorithms / computational search strategies / synthetic solutions / distributed molecular communication systems / homeostatic systems / strand displacement systems / information processing systems / evolutionary search / molecular algorithms / possible higher-order chemical structures / chemicals / designed signaling networks / possible network solutions / biochemical solutions / synthetic oscillatory network / node networks / random networks / disease network / wavelike signaling systems / gene networks / /
Movie
Sarkar / A.D. / /
Organization
NIGMS P50 Center / Quantitative Biology and Peking-Tsinghua Center for Life Sciences / Peking University / Beijing / UCSF Center for Systems and Synthetic Biology / University of California / San Francisco / /
Person
Nova / Tyson / Hakim / V / Nat / Matthew Thomson / Hana El-Samad / George Box / Hariharan / /
Molecular Cell Review Design Principles of Regulatory Networks: Searching for the Molecular Algorithms of the Cell Wendell A. Lim,1,2,3,* Connie M. Lee,1,2 and Chao Tang4