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Actin-cytoskeleton rearrangement modulates proton-induced uptake
Nadav Ben-Dov,
Rafi Korenstein
*
*
Corresponding author for this work
Physiology Pharmacology
Tel Aviv University
Research output
:
Contribution to journal
›
Article
›
peer-review
5
Scopus citations
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Keyphrases
Proton
100%
Cytoskeleton Remodeling
100%
Suspended Cells
44%
Adherent Cells
44%
Scission
33%
Actin
22%
Vesicle Formation
22%
Latrunculin
22%
Rapamycin
11%
High Concentration
11%
Macromolecules
11%
Cell Surface
11%
Membrane Vesicles
11%
Plasma Membrane
11%
Cell Membrane
11%
Endocytosis
11%
Cortical Actin
11%
Stress Fibers
11%
PH-induced
11%
Cytoskeletal Actin
11%
Wortmannin
11%
Invagination
11%
Induced Membrane
11%
Membrane Bending
11%
Membrane Curvature
11%
Cytochalasin D
11%
Charge Asymmetry
11%
Enhanced Uptake
11%
Membrane Invagination
11%
Proton Concentration
11%
Calyculin A
11%
Membrane Vesiculation
11%
Structural Resistance
11%
Gradual Degradation
11%
Actin Depolymerization
11%
Immunology and Microbiology
Actin
100%
Cytoskeleton
100%
Adherent Cell
50%
Cell Membrane
33%
Sirolimus
16%
Cell Surface
16%
Membrane Vesicle
16%
Endocytosis
16%
Macromolecule
16%
Depolymerization
16%
Membrane Invagination
16%
Invagination
16%
Stress Fiber
16%
Biochemistry, Genetics and Molecular Biology
Actin
100%
Cytoskeleton
100%
Cell Membrane
33%
Latrunculin
33%
Macromolecule
16%
Surface Property
16%
Endocytosis
16%
Stress Fiber
16%
Membrane Curvature
16%
Membrane Vesicle
16%
Dextran
16%
Depolymerization
16%
Membrane Invagination
16%
Invagination
16%
Neuroscience
Actin
100%
Actin Cytoskeleton
100%
Cell Membrane
40%
Dextran
20%
Endocytosis
20%
Wortmannin
20%
Invagination
20%
Membrane Vesicle
20%
Membrane Invagination
20%
Calyculin
20%
Engineering
Suspended Cell
100%
Fibre Stress
25%
Critical Role
25%
Depolymerization
25%
Material Science
Cell Membrane
100%