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A systematic investigation of the rate laws valid in intracellular environments
R. Grima
, S. Schnell
*
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Corresponding author for this work
School of Biological Sciences
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peer-review
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Chemistry
Environment
100%
Chemical Reaction
72%
Chemical Kinetics Characteristics
36%
Crystalline Material
27%
Particle Size
18%
Simulation
18%
Surface
18%
Heterogeneity
18%
Mass Action Law
9%
Segregation
9%
Monte Carlo Method
9%
Structure
9%
Concentration
9%
Gas
9%
Alloy
9%
Molecule
9%
Macromolecule
9%
Compound Mobility
9%
Physics
Environment
100%
Simulation
27%
Geometry
18%
Probability Theory
18%
Reaction Kinetics
18%
Heterogeneity
18%
Monte Carlo
9%
Molecules
9%
Macromolecules
9%
Gases
9%
Crystals
9%
Deviation
9%
Mobility
9%
Differences
9%
Dimensions
9%
Chemical Reaction
9%
Enzyme
9%
Alloy
9%
Biochemistry, Genetics and Molecular Biology
Taxonomy
100%
Mass Action
27%
Surface Property
18%
Chemical Reaction Kinetics
18%
Kinetics
18%
Crystalline Material
18%
Enzyme Mechanism
9%
Crystal
9%
Macromolecule
9%
Macromolecular Crowding
9%
Chemical Reaction
9%
Gas
9%
Molecule
9%