Chitnis AB / BP / Matsuda / cDi / Fannie / Creative Commons / /
Country
United States / / /
Facility
Howard Hughes Medical Institute / California Institute of Technology / /
IndustryTerm
lateral inhibition systems / biological patterning systems / natural systems / diverse biological systems / web.micinn.es / developmental systems / model systems / steady state solutions / /
MusicGroup
Notch / MI / /
Organization
John Hertz Foundation / UCLA / California Institute of Technology / National Institute of Health / Division of Biology / Caltech Center for Biological Circuit Design / Packard Foundation / Universitat Polite`cnica de Catalunya / Ecole Normale Supe´rieure / Department of Applied Physics / Howard Hughes Medical Institute / /
Person
AL JGO MBE / Denis Thieffry / AL LL JGO / Salud Carlos III / / /
Position
original author / Editor / Author / Author Summary Multicellular development / reporter / /
ProvinceOrState
Michigan / California / /
PublishedMedium
PLoS Computational Biology / the PLoS Computational Biology / /
Mutual Inactivation of Notch Receptors and Ligands Facilitates Developmental Patterning David Sprinzak1,2., Amit Lakhanpal1,2., Lauren LeBon1,2, Jordi Garcia-Ojalvo3, Michael B. Elowitz1,2* 1 Howard Hughes Medical Instit