Keyphrases
Inhibitory Network
100%
Cell Fate Determination
100%
Gene Network
100%
Multistable
100%
Positive Autoregulation
100%
State Transition
71%
Multistability
57%
Cell Fate Decision
42%
State Determination
28%
Multistable Systems
28%
Escherichia Coli
28%
Transitional Dynamics
28%
Stable Steady State
28%
Microfluidic Platform
28%
Cell Reprogramming
14%
Single State
14%
Three-dimensional Landscape
14%
Living Cells
14%
Cell Differentiation Processes
14%
Temporal Dynamics
14%
Pluripotency
14%
Transition Pathways
14%
Heart Development
14%
Cell-derived
14%
Mathematical Analysis
14%
Synthetic Biology
14%
Cellular Level
14%
Mutual Inhibition
14%
Stem Cell Differentiation
14%
Stem Cell Therapy
14%
Engineering Studies
14%
Experimental Validation
14%
Cell Differentiation
14%
Induced Pluripotent Stem Cells (iPSCs)
14%
Cell State
14%
Cardiac Regeneration
14%
Forward Engineering
14%
Hysteresis
14%
Mutually Exclusive
14%
Cellular Systems
14%
Engineering Intervention
14%
Cardiac Cells
14%
Computational Tools
14%
Therapeutic Intervention
14%
Biotechnology Applications
14%
Cardiovascular Injury
14%
Experimental Tools
14%
Engineering
Engineering
100%
State Transition
100%
Stable Steady State
50%
Microfluidic Platform
50%
Initial State
25%
Design of Experiments
25%
Living Cell
25%
Cardiac Cell
25%
Induced Pluripotent Stem Cell
25%
Cardiac Tissue Engineering
25%
Stem Cell
25%
Synthetic Biology
25%
Generating Mechanism
25%
Maintain Pluripotency
25%
Model Parameter
25%
Differentiation Process
25%
Inhibition
25%
Stem Cell Differentiation
25%
Biochemistry, Genetics and Molecular Biology
Gene Network
100%
Cell Fate Determination
100%
Autoregulation
100%
Dynamics
42%
Cellular Differentiation
42%
Escherichia coli
28%
Cell Fate
28%
Steady State
28%
Induced Pluripotent Stem Cell
14%
Decision Making
14%
Stem Cell Transplantation
14%
Stem Cell
14%
Nuclear Reprogramming
14%
Cell Level
14%