Houston / Shaner / Valencia / Austin / A. Chip / La Jolla / Sia / Jacobson / Elowitz / /
Company
Macmillan Publishers Limited. / N. & Lee L. P. / Cox / J. Cell Comp / /
Country
United States / / /
Facility
port W / Genetics jail / BioCircuits Institute / port C / Institute of Biosciences / Whitesides laboratory / Rice University / University of California / /
IndustryTerm
mass action‑based systems / large-scale gene networks / spatial chemical gradients / microfluidic device / probe gene networks / galactose network / lab-on-a-chip / microfluidic systems / even simple gene networks / flow chamber-like device / cell-biological applications / media inlet / media conditions / galactose utilization network / biological systems / Conclusion microfluidic devices / gene network / chemical gradients / chemical concentrations / temporal chemical stimulation / simplified gene networks / microfluidic devices / energy landscapes / early chips / imaging / native networks / highthroughput chemical analysis / similar solution / chemical reactions / microfluidic chips / gradient device / long-term fluorescent imaging / media concentrations / biological networks / possible chemical reactions / synthetic gene network / nanoliter systems / integrated microfluidic device / output network / Gene regulatory networks / supply media / microfluidic chip / microfluidic networks / extracellular chemical concentrations55 / experimental protocols / dial-a-wave device / gene networks / /
MedicalCondition
dissociation / /
MedicalTreatment
antibiotics / /
Movie
A. D. / /
Organization
Rice University / Institute of Biosciences and Bioengineering / American Chemical Society / Department of Biochemistry and Cell Biology / Department of Biochemistry / American Association for the Advancement of Science / University of California / San Diego / Bioengineering and BioCircuits Institute / /
Person
Harrison / Matthew R. Bennett / /
Position
D. J. / fluorescent reporter / player / model / Representative / reporter / /
ProvinceOrState
Texas / South Carolina / S. K. / Nova Scotia / M. B. / North Carolina / California / A. B. / /
PublishedMedium
PLoS ONE / Molecular Biology / /
Technology
D. R. Life-on-a-chip / chip design / genetic engineering / Electrophoresis / polymerization / specific experimental protocols / lab-on-a-chip / lithography / DNA binding / microfluidics / drug screening / A. Microfluidics technology / early chips / microfluidic chip / gene expression / DNA amplification / Simulation / Lab Chip / /
REVIEWS modelling Microfluidic devices for measuring gene network dynamics in single cells