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Pulling-force generation by ensembles of polymerizing actin filaments
F. Motahari, A. E. Carlsson
Department of Physics
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
DBBS - Computational and Systems Biology
DBBS - Biochemistry, Biophysics, and Structural Biology
Research output
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Contribution to journal
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Article
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peer-review
5
Scopus citations
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Keyphrases
Actin Filaments
100%
Force Generation
100%
Pulling Force
100%
Actin Polymerization
50%
Soft Gel
50%
Cellular Processes
25%
Net Balance
25%
Endocytosis
25%
Actin Network
25%
Force Balance
25%
Equilibration
25%
Semi-flexible
25%
Stress Concentration
25%
Pushing Force
25%
Force Distribution
25%
Square Array
25%
Total Binding Energy
25%
Griffith Theory
25%
Deep Potential
25%
Network Elasticity
25%
Brittle Crack
25%
Crack Propagation
25%
Steady-state Force
25%
Potential Well
25%
Concentration Mechanism
25%
Breaking Stress
25%
Gel Rigidity
25%
Engineering
Force Generation
100%
Pulling Force
100%
Polymerization
75%
Binding Energy
25%
Rigidity
25%
Stress Concentration
25%
Actin Network
25%
Square Array
25%
Force State
25%
Crack Propagation
25%
Equilibration
25%
Griffith Theory
25%
Brittle Crack
25%
Material Science
Polymerization
100%
Rigidity
33%
Stress Concentration
33%
Crack Propagation
33%