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Phosphorelays provide tunable signal processing capabilities for the cell
Varun B Kothamachu,
Elisenda Feliu
,
Carsten Wiuf
, Luca Cardelli, Orkun S Soyer
Department of Mathematical Sciences
13
Citations (Scopus)
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Engineering & Materials Science
Composite materials
17%
Computer simulation
16%
Dynamic response
26%
Hydrolysis
37%
Phosphorylation
100%
Plasticity
29%
Proteins
28%
Rate constants
38%
Signal processing
50%
Signal transduction
46%
Topology
42%
Mathematics
Cell
45%
Composite
7%
Dynamic Response
11%
Kinetics
16%
Numerical Simulation
6%
Phosphorylation
28%
Plasticity
9%
Protein
9%
Rate Constant
10%
Relationships
32%
Relay
46%
Reverse
17%
Signal Processing
66%
Signal Transduction
14%
Sufficient
6%
Topology
12%
Earth & Environmental Sciences
cell
38%
dynamic response
10%
eukaryote
10%
hydrolysis
8%
kinetics
10%
measuring
5%
physiological response
10%
plasticity
8%
prokaryote
10%
protein
6%
rate
8%
signal processing
69%
simulation
3%
topology
17%
Medicine & Life Sciences
Eukaryota
32%
Hydrolysis
28%
Kinetics
45%
Phosphorylation
43%
Proteins
11%
Signal Transduction
24%
Agriculture & Biology
cells
19%
eukaryotic cells
10%
hydrolysis
9%
kinetics
16%
phosphorylation
21%
physiological response
12%
plasticity
11%
prokaryotic cells
13%
proteins
4%
signal transduction
11%
topology
25%