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Force generation by endocytic actin patches in budding yeast
Anders E. Carlsson,
Philip V. Bayly
Department of Physics
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
Department of Mechanical Engineering & Materials Science
McKelvey School of Engineering
DBBS - Computational and Systems Biology
DBBS - Biochemistry, Biophysics, and Structural Biology
DBBS - Neurosciences
Institute of Clinical and Translational Sciences (ICTS)
Hope Center for Neurological Disorders
Center of Regenerative Medicine
Intellectual and Developmental Disabilities Research Center (IDDRC)
Research output
:
Contribution to journal
›
Article
›
peer-review
50
Scopus citations
Overview
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Keyphrases
Actin Polymerization
100%
Endocytic
100%
Force Generation
100%
Budding Yeast
100%
Actin Patch
100%
Actin
60%
Coat Protein
60%
Endocytosis
40%
Protein Layer
40%
Clathrin
20%
Polymerized
20%
Invagination
20%
Actomyosin
20%
Polymerization Rate
20%
Turgor Pressure
20%
Pulling Force
20%
Stall
20%
Simulation Method
20%
Actin Network
20%
Contractile Ring
20%
Shear Modulus
20%
Membrane Deformation
20%
Optimistic Estimate
20%
Templated Assembly
20%
Finite Element Approach
20%
Sol-gel Growth
20%
Active Gels
20%
Biochemistry, Genetics and Molecular Biology
Actin
100%
Actin Polymerization
100%
Budding Yeast
100%
Coat Protein
60%
Endocytosis
40%
Clathrin
20%
Myosin ATPase
20%
Turgor Pressure
20%
Invagination
20%