Original Article
|
Open Access
Featured
-
-
Editorial
| Open AccessSystems biology: a way to make complex problems more understandable
- I N Lavrik
- & B Zhivotovsky
-
Review
| Open AccessFrom computational modelling of the intrinsic apoptosis pathway to a systems-based analysis of chemotherapy resistance: achievements, perspectives and challenges in systems medicine
- M L Würstle
- , E Zink
- & M Rehm
-
-
Review
| Open AccessCell-to-cell variability in cell death: can systems biology help us make sense of it all?
- X Xia
- , M S Owen
- & S Gaudet
-
Review
| Open AccessSystems biology of cisplatin resistance: past, present and future
- L Galluzzi
- , I Vitale
- & G Kroemer
-
Review
| Open AccessSystems biology approaches to develop innovative strategies for lung cancer therapy
- K Viktorsson
- , R Lewensohn
- & B Zhivotovsky
-
Original Article
| Open AccessActivation of executioner caspases is a predictor of progression-free survival in glioblastoma patients: a systems medicine approach
- Á C Murphy
- , B Weyhenmeyer
- & B M Murphy
Browse broader subjects
Browse narrower subjects
- Bayesian inference
- Biobricks
- Biochemical networks
- Bioenergetics
- Cellular noise
- Complexity
- Computer modelling
- Computer science
- Control theory
- Criticality
- Differential equations
- DNA computing and cryptography
- Dynamic networks
- Dynamical systems
- Emergence
- Evolvability
- Genetic circuit engineering
- Genetic interaction
- Genomic engineering
- Information theory
- Logic gates
- Metabolic engineering
- Modularity
- Molecular engineering
- Molecular fluctuations
- Multicellular systems
- Multistability
- Nonlinear dynamics
- Numerical simulations
- Oscillators
- Population dynamics
- Programming language
- Protein engineering
- Regulatory networks
- Reverse engineering
- Robustness
- Signal processing
- Single-cell imaging
- Software
- Standardization
- Stochastic modelling
- Stochastic networks
- Synthetic biology
- Systems analysis
- Time series