Anders E Carlsson
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Explore the profile of Anders E Carlsson including associated specialties, affiliations and a list of published articles.
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19
Citations
271
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Recent Articles
1.
Wang X, Carlsson A
PLoS Comput Biol
. 2017 Dec;
13(12):e1005901.
PMID: 29240771
We present a Master Equation approach to calculating polymerization dynamics and force generation by branched actin networks at membranes. The method treats the time evolution of the F-actin distribution in...
2.
Carlsson A
Curr Opin Cell Biol
. 2017 Dec;
50:1-7.
PMID: 29207306
Actin polymerization provides driving force to aid several types of processes that involve pulling the plasma membrane into the cell, including phagocytosis, cellular entry of large viruses, and endocytosis. In...
3.
Scher-Zagier J, Carlsson A
Biophys J
. 2016 Dec;
111(12):2747-2756.
PMID: 28002750
The primary drivers of yeast endocytosis are actin polymerization and curvature-generating proteins, such as clathrin and BAR domain proteins. Previous work has indicated that these factors may not be capable...
4.
Wang X, Galletta B, Cooper J, Carlsson A
Biophys J
. 2016 Mar;
110(6):1430-43.
PMID: 27028652
Endocytosis mediated by clathrin, a cellular process by which cells internalize membrane receptors and their extracellular ligands, is an important component of cell signaling regulation. Actin polymerization is involved in...
5.
Wang R, Carlsson A
Phys Biol
. 2015 Nov;
12(6):066008.
PMID: 26602226
Capping protein (CP), which caps the growing ends of actin filaments, accelerates actin-based motility. Recent experiments on biomimetic beads have shown that CP also enhances the rate of actin filament...
6.
Wang X, Carlsson A
Phys Biol
. 2014 Oct;
11(6):066002.
PMID: 25313164
Directed cell migration requires a spatially polarized distribution of polymerized actin. We develop and treat a mechanical model of cell polarization based on polymerization and depolymerization of actin filaments at...
7.
Sept D, Carlsson A
Q Rev Biophys
. 2014 Aug;
47(3):221-48.
PMID: 25124728
The past decade has witnessed significant developments in molecular biology techniques, fluorescent labeling, and super-resolution microscopy, and together these advances have vastly increased our quantitative understanding of the cell. This...
8.
Carlsson A, Bayly P
Biophys J
. 2014 Apr;
106(8):1596-606.
PMID: 24739159
Membrane deformation during endocytosis in yeast is driven by local, templated assembly of a sequence of proteins including polymerized actin and curvature-generating coat proteins such as clathrin. Actin polymerization is...
9.
Dasanayake N, Carlsson A
Phys Biol
. 2013 Apr;
10(3):036006.
PMID: 23595157
Forces and stresses generated by the action of myosin minifilaments are analyzed in idealized computer-generated actin bundles, and compared to results for isotropic actin networks. The bundles are generated as...
10.
Burnett M, Carlsson A
Biophys J
. 2013 Jan;
103(11):2369-78.
PMID: 23283236
We use stochastic simulations that treat several experimental probes of actin dynamics to explore the extent to which phosphate dissociation in filamentous actin may be cooperative. Phosphate time-courses from polymerization...