Moscow / Pasadena / Boston / New York / Manchester / La Jolla / Berlin / Cambridge / London / /
Company
Oxford Univ Press / Neural Systems / Neural Information Processing Systems / Gartner / MIT Press / Nat Comp / ACS / Manchester Univ Press / Reynaldo LP / Volterra / Nonlinear Systems / Biochemical Systems / / /
Facility
University of California San Diego / Prentice Hall / University of Washington / California Institute of Technology / /
IndustryTerm
genetic regulatory networks / target reaction network / arbitrary chemical reaction equations / chemical synthesis pathways / chemical equations / chemical systems / biological and nonbiological chemical systems / inappropriate computing models / arbitrary systems / chemical system / chemical logic circuit responding / molecular and chemical systems / software tools / chemical subsystems / chemical reaction networks / reaction networks / chemical dynamics / control non-nucleic-acid systems / supply energy / model chemical experiments / coupled chemical kinetics / nucleic-acid systems / chemical steps / chemical oscillator / characterized strand displacement systems / formal chemical reaction equations / particular molecular systems / construction to more complex systems / molecular systems / chemical diode / energy / chemical and biological engineering / real chemical systems / transcription networks / coupled chemical equations / chemical reactions / computational systems / chemical oscillator example / cell-free enzyme systems / formal chemical system / arbitrary reaction-diffusion systems / chemical properties / synthetic chemical circuits / formal chemical reaction system / real chemical reaction / finite stochastic chemical reaction networks / important chemical behaviors / synthetic peptide network / hybridization energy / chemical reaction kinetics / strand displacement systems / chemical kinetics / computing / chemical substrate / coupled chemical reactions / /
Organization
California Institute of Technology / IFIP International Federation for Information Processing / National Science Foundation / MIT / Department of Computer Science and Engineering / Association for Computing Machinery / University of Washington / Seattle / University of California San Diego / /
DNA as a universal substrate for chemical kinetics David Soloveichika,1, Georg Seeliga,b,1, and Erik Winfreec,1 a Department of Computer Science and Engineering, University of Washington, Seattle, WA 98195; bDepartment o