Keyphrases
Myocytes
100%
Prestress
100%
Nuclear Shape
100%
Nuclear Stiffness
100%
Chromatin
50%
Nuclear Envelope
50%
Chromatin Structure
33%
Cytoskeletal Structure
33%
Vulnerability
16%
Computational Model
16%
Mechanical Interaction
16%
Cytoskeleton
16%
Mechanical Properties
16%
Cellular Response
16%
Lamin
16%
Isolated nuclei
16%
Physical Link
16%
Stiffness
16%
Deformability
16%
Mechanical Stimulation
16%
Nuclear Membrane
16%
Myocyte Contraction
16%
Mechanical Stress
16%
Sudden Expansion
16%
Structure Influence
16%
Nuclear Lamina
16%
Laminopathy
16%
Opposing Forces
16%
Myofibril Structure
16%
Decondensation
16%
Nuclear Mechanics
16%
Nuclear Deformability
16%
Multi-connectivity
16%
Biochemistry, Genetics and Molecular Biology
Nuclear Shape
100%
Rigidity
100%
Nuclear Pore
100%
Nuclear Membrane
100%
Cardiac Muscle Cell
100%
Chromatin Structure
50%
Lamin
50%
Mechanical Stress
25%
Cytoskeleton
25%
Neuroscience
Myocyte
100%
Nuclear Pore
66%
Chromatin Structure
33%
Lamin
33%
Cytoskeleton
16%
Veterinary Science and Veterinary Medicine
Myocyte
100%
Cardiac Muscle Cell
100%
Laminopathy
25%
Physics
Muscle Cell
100%
Computational Modeling
16%
Mechanical Stress
16%