Intracellular transport of insulin granules is a subordinated random walk. - Test2 - elhamkhani - TriplyDB

Intracellular transport of insulin granules is a subordinated random walk.

Intracellular transport of insulin granules is a subordinated random walk.

http://www.wikidata.org/entity/Q30538192

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Superdiffusive motion of membrane-targeting C2 domains.Microtubules Negatively Regulate Insulin Secretion in Pancreatic β Cells.Cytoskeletal dependence of insulin granule movement dynamics in INS-1 beta-cells in response to glucose Optical tracking of nanoscale particles in microscale environments.Synergy of cell-cell repulsion and vacuolation in a computational model of lumen formation.Insight into insulin secretion from transcriptome and genetic analysis of insulin-producing cells of Drosophila Ergodicity breaking on the neuronal surface emerges from random switching between diffusive states.Spatial distributions at equilibrium under heterogeneous transient subdiffusion.Identifying transport behavior of single-molecule trajectories.Characterization of anomalous movements of spherical living cells on a silicon dioxide glassy substrate.How molecular motors work in the crowded environment of living cells: coexistence and efficiency of normal and anomalous transport.Cytoskeletal Network Morphology Regulates Intracellular Transport Dynamics.Correlative imaging across microscopy platforms using the fast and accurate relocation of microscopic experimental regions (FARMER) method.Underdamped scaled Brownian motion: (non-)existence of the overdamped limit in anomalous diffusion.Quantifying the dynamic interactions between a clathrin-coated pit and cargo molecules.Distribution of directional change as a signature of complex dynamics.Single-pixel interior filling function approach for detecting and correcting errors in particle tracking.Combining random walk and regression models to understand solvation in multi-component solvent systems.Quantifying non-ergodicity of anomalous diffusion with higher order moments.Diffusing diffusivity: Rotational diffusion in two and three dimensions.Time averages in continuous-time random walks.Rad4 recognition-at-a-distance: Physical basis of conformation-specific anomalous diffusion of DNA repair proteins.Identifying ergodicity breaking for fractional anomalous diffusion: Criteria for minimal trajectory length.Origin of subdiffusion of water molecules on cell membrane surfaces.Dynamic interactions between a membrane binding protein and lipids induce fluctuating diffusivity.Diatrack particle tracking software: review of applications and performance evaluation.Fractional diffusion models of cardiac electrical propagation: role of structural heterogeneity in dispersion of repolarization.Molecular motors pulling cargos in the viscoelastic cytosol: how power strokes beat subdiffusion.Particle invasion, survival, and non-ergodicity in 2D diffusion processes with space-dependent diffusivity.Anomalous Dynamics of a Lipid Recognition Protein on a Membrane Surface.Probing the type of anomalous diffusion with single-particle tracking.Diffusion of a particle quadratically coupled to a thermally fluctuating field.Segmentation of 3D Trajectories Acquired by TSUNAMI Microscope: An Application to EGFR Trafficking.Population splitting, trapping, and non-ergodicity in heterogeneous diffusion processes.Microtubule orientation and spacing within bundles is critical for long-range kinesin-1 motility.Dynamic fingerprinting of sub-cellular nanostructures by image mean square displacement analysis.Diffusion of finite-size particles in two-dimensional channels with random wall configurations.Elucidating fluctuating diffusivity in center-of-mass motion of polymer models with time-averaged mean-square-displacement tensor.An efficient algorithm for extracting the magnitude of the measurement error for fractional dynamics.Aging underdamped scaled Brownian motion: Ensemble- and time-averaged particle displacements, nonergodicity, and the failure of the overdamping approximation.

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P2860

Intracellular transport of insulin granules is a subordinated random walk.

http://www.wikidata.org/entity/Q30538192

description

2013 nî lūn-bûn

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Intracellular transport of insulin granules is a subordinated random walk.

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Intracellular transport of insulin granules is a subordinated random walk.

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Intracellular transport of insulin granules is a subordinated random walk.

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Intracellular transport of insulin granules is a subordinated random walk.

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Intracellular transport of insulin granules is a subordinated random walk.

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PNAS.1221962110

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Proceedings of the National Academy of Sciences of the United States of America

P1476

Intracellular transport of insulin granules is a subordinated random walk.

@en

P2093

Aaron R Dinner

http://www.w3.org/2001/XMLSchema#string

Andrey Kuznetsov

http://www.w3.org/2001/XMLSchema#string

Hee Y Kim

http://www.w3.org/2001/XMLSchema#string

Justin Jureller

http://www.w3.org/2001/XMLSchema#string

Louis H Philipson

http://www.w3.org/2001/XMLSchema#string

Norbert F Scherer

http://www.w3.org/2001/XMLSchema#string

S M Ali Tabei

http://www.w3.org/2001/XMLSchema#string

Stanislav Burov

http://www.w3.org/2001/XMLSchema#string

Toan Huynh

http://www.w3.org/2001/XMLSchema#string

P2860

Thermodynamic Fluctuations in a Reacting System—Measurement by Fluorescence Correlation Spectroscopy

Intracellular actin-based transport: how far you go depends on how often you switch

Bacterial Chromosomal Loci Move Subdiffusively through a Viscoelastic Cytoplasm

Analysis of transient behavior in complex trajectories: application to secretory vesicle dynamics

The role of microtubule movement in bidirectional organelle transport

Direct imaging shows that insulin granule exocytosis occurs by complete vesicle fusion.

Protein hormone storage in secretory granules: mechanisms for concentration and sorting.

Confined lateral diffusion of membrane receptors as studied by single particle tracking (nanovid microscopy). Effects of calcium-induced differentiation in cultured epithelial cells.

Aging and nonergodicity beyond the Khinchin theorem.

Mechanical properties of Xenopus egg cytoplasmic extracts.

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4911-4916

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10.1073/PNAS.1221962110

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110

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2013-03-11T00:00:00Z

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235906489

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23479621

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3612641

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