Modeling suggests that gene circuit architecture controls phenotypic variability in a bacterial persistence network.
Rachel S. KohMary J. DunlopPublished in: BMC Syst. Biol. (2012)
Keyphrases
- network architecture
- mobile telecommunications
- data flow
- application level
- interaction networks
- escherichia coli
- gene regulatory networks
- network model
- real time
- computer networks
- network structure
- microarray
- high speed
- neural network
- complex networks
- high throughput
- network traffic
- gene expression
- peer to peer
- dynamic bayesian networks
- text mining
- gene networks
- management system
- future internet
- social networks
- packet switching