Probing microscopic origins of confined subdiffusion by first-passage observables. - Wikidata - awgldk - TriplyDB

Probing microscopic origins of confined subdiffusion by first-passage observables.

Probing microscopic origins of confined subdiffusion by first-passage observables.

http://www.wikidata.org/entity/Q36558130

about

Bayesian decision tree for the classification of the mode of motion in single-molecule trajectories Diffusion Processes and Drug Release: Capsaicinoids - Loaded Poly (ε-caprolactone) Microparticles Actin polymerization driven mitochondrial transport in mating S. cerevisiae.Resolving a paradox of anomalous scalings in the diffusion of granular materials.Intracellular transport of insulin granules is a subordinated random walk.Quantifying biomolecule diffusivity using an optimal Bayesian method.Characterization of hydrogel microstructure using laser tweezers particle tracking and confocal reflection imaging.Single-molecule tracking in live cells reveals distinct target-search strategies of transcription factors in the nucleus.Ergodic and nonergodic processes coexist in the plasma membrane as observed by single-molecule tracking.Spot variation fluorescence correlation spectroscopy allows for superresolution chronoscopy of confinement times in membranes.Guidelines for the fitting of anomalous diffusion mean square displacement graphs from single particle tracking experiments Tracking surface glycans on live cancer cells with single-molecule sensitivity.Chromosomal locus tracking with proper accounting of static and dynamic errors.A Bayesian inference scheme to extract diffusivity and potential fields from confined single-molecule trajectories Analytical tools to distinguish the effects of localization error, confinement, and medium elasticity on the velocity autocorrelation function Inferring diffusion dynamics from FCS in heterogeneous nuclear environments.A fractal model for nuclear organization: current evidence and biological implications.Procedures for Model-Guided Data Analysis of Chromosomal Loci Dynamics at Short Time Scales.Universal algorithm for identification of fractional Brownian motion. A case of telomere subdiffusion.Quantitative analysis of single particle trajectories: mean maximal excursion method.Fractal model of anomalous diffusion.Anomalous versus slowed-down Brownian diffusion in the ligand-binding equilibrium.Subdiffusive motion of a polymer composed of subdiffusive monomers.How subdiffusion changes the kinetics of binding to a surface.Improved estimation of anomalous diffusion exponents in single-particle tracking experiments.Dissecting chromatin interactions in living cells from protein mobility maps.Search times with arbitrary detection constraints.Molecular simulation of protein dynamics in nanopores. II. Diffusion.Response to Comment by Destainville et al.Population splitting, trapping, and non-ergodicity in heterogeneous diffusion processes.Dynamic Scaling Analysis of Molecular Motion within the LAT:Grb2:SOS Protein Network on Membranes.How proteins bind to DNA: target discrimination and dynamic sequence search by the telomeric protein TRF1.Technological strategies to estimate and control diffusive passage times through the mucus barrier in mucosal drug delivery.Diffusion of small particles in polymer films.Inequivalence of time and ensemble averages in ergodic systems: exponential versus power-law relaxation in confinement.Comparison of different models of motion in a crowded environment: a Monte Carlo study.Subdiffusion in time-averaged, confined random walks.Random time-scale invariant diffusion and transport coefficients.Optimality of Spatially Inhomogeneous Search Strategies.Unraveling intermittent features in single-particle trajectories by a local convex hull method.

P2860

Q28537846-525A941A-37E2-469E-8AD1-3C4CFE08EFAC Q28550326-8DCCDA5D-16DF-43EC-8231-747DCB66CA42 Q30493055-BD48ED39-684F-4871-99F0-9A94050791C0 Q30526251-B680C304-CDC9-4341-A292-02B15DDE76D7 Q30538192-0BD23F7C-8027-4DA5-B62E-D7D4D64BA95E Q33647850-22CBEF48-EA06-4EF4-BC88-4DF8B4EED45A Q33704961-DCB4C9C7-D6FE-41D1-84EA-1335318C4F27 Q33893662-D1D8A861-FC0C-4349-8A1B-FDAC6D217138 Q34835818-763BD7FC-5DB7-44B7-91D4-E6AB95A3C97F Q35051235-40620B90-074C-4091-A6D9-39BB14A41EA5 Q35560943-BFFBFA46-BB08-4408-BD89-2817685B52E0 Q35738212-5AD3848C-1701-4FE7-8CCA-123605863F75 Q35945253-1B91C549-83F5-4B53-9889-E6DD770B30F1 Q35962574-68051355-6BA7-4A26-A5C1-D0B8B99E824C Q36010893-37BF8B30-993D-45E2-8E4A-D948E6A42B6E Q36066741-86E49ED9-9136-40BE-9FE1-94438C3E4257 Q36305576-2037270E-A58B-45D4-9A7A-88AEE49A9EC9 Q38607476-475CF4B7-5D50-4702-B761-A2A9C8D1AC6A Q39235139-040FE434-2678-4192-8B62-5857808AD2E2 Q39888228-D0039C09-D4DD-43ED-A57D-D8FF895D792F Q40780746-71BCEC0A-26AC-4E4B-AB35-7C18D0123EB3 Q41816249-DA51AA89-9728-4728-A1CB-9387B29ED7ED Q42070408-07047410-600B-438A-850C-5921DC3BC978 Q42629846-59ED9A4A-80A9-4B40-9367-011C483A6461 Q42817973-E4B17C6D-1C0F-474B-9902-452CB79517EB Q44500632-1AA68648-4BD1-4678-BDCE-6326392B3AC5 Q44799168-B1040921-33E1-4AF1-AA52-06D0D8F34F14 Q45956356-44F1E405-FA81-4899-80BD-A5D3DDECD6DD Q46320992-88F4E9C3-22A2-4AA1-81E9-AE7DF1B58A47 Q46377147-2C154372-29AE-4569-83D3-2B8002F0179A Q46437894-F5EA91B0-0C4D-43D2-BE45-3BD3C9764150 Q47143904-FE26A820-F8C6-4CF0-9D16-BFE1F104F1CE Q47244850-BAFD22D4-BA29-46B0-968D-7B802233B9FB Q47773766-3A917164-6CD3-47F9-8239-94527550B774 Q47961018-C3CD2062-E360-4639-9967-053AC8571166 Q48281524-D8A4DAAC-B2FD-4141-95C4-C86C6BFE9F91 Q48842541-8EC42E7E-ED7F-4B89-BB84-7E3A45B3DF7E Q48874198-DD5856F1-DEA4-47E7-8092-A6CE79E4807B Q49106799-30401287-B340-440E-968F-E2B4764F49A2 Q49818934-D8092696-36DB-4FDA-8A39-EEB49B68A41E

P2860

Probing microscopic origins of confined subdiffusion by first-passage observables.

http://www.wikidata.org/entity/Q36558130

description

2008 nî lūn-bûn

@nan

2008年の論文

@ja

2008年論文

@yue

2008年論文

@zh-hant

2008年論文

@zh-hk

2008年論文

@zh-mo

2008年論文

@zh-tw

2008年论文

@wuu

2008年论文

@zh

2008年论文

@zh-cn

name

Probing microscopic origins of confined subdiffusion by first-passage observables.

@ast

Probing microscopic origins of confined subdiffusion by first-passage observables.

@en

type

label

Probing microscopic origins of confined subdiffusion by first-passage observables.

@ast

Probing microscopic origins of confined subdiffusion by first-passage observables.

@en

prefLabel

Probing microscopic origins of confined subdiffusion by first-passage observables.

@ast

Probing microscopic origins of confined subdiffusion by first-passage observables.

@en

P1433

Q36558130-0B859862-1B66-4FC5-99BC-26C8C80A5DD1

P1476

Q36558130-4376B4AD-D81C-4E5D-975F-193871A60637

P2093

Q36558130-3462DD28-631C-4F5C-86F1-88AE53D9C18E

Q36558130-389E45C8-5569-42B1-AF88-2BE28FF02E05

Q36558130-41C9D2E7-252E-43D9-ACEA-0BCDFC6E4596

Q36558130-6100EBE1-6E16-4910-A8AB-94B7F6F1F171

Q36558130-ADD2F870-F502-4914-AE22-69895E953C4B

P2860

Q36558130-04E306B8-8B48-43D0-A628-250D59D73F93

Q36558130-0C585C93-8416-40C1-9FEA-07E1C74EBDC8

Q36558130-0F1AB9A3-AE4A-429C-B1F8-7F4843FEED62

Q36558130-1774AD5D-0D06-4E7E-8E88-926CEFF8D458

Q36558130-1C9300EB-C02F-484B-9C88-CE793D3686FF

Q36558130-3241DEEB-353F-45AB-973A-65E7AE48A1AF

Q36558130-37CFE0C9-302C-4C9D-976D-125D433732F8

Q36558130-4726E23B-64F3-4EF5-A234-E63374C060E5

Q36558130-4DC6FADB-4947-4CC1-A35B-B89FB702696E

Q36558130-5FA77603-9027-40AB-BE30-F03239AC836A

P304

Q36558130-E50ADE67-EABC-404A-91D6-241C25670297

P31

Q36558130-C7011772-B8A6-49A8-AAA6-D2E8BF3A8C81

P356

Q36558130-4E601E4F-5227-43A3-B031-A81B8434B5DB

P407

Q36558130-1F373F66-438D-435F-B1A9-E1150E795AE2

P433

Q36558130-5374875D-5D3A-4E70-A7A3-5CE19C1D0D79

P478

Q36558130-3963B24D-0A5B-4230-B8A3-07EADD559259

P577

Q36558130-E8E5AD5C-499D-43C8-B314-EB1D07C5A0C4

P5875

Q36558130-E318A067-E6C1-4679-B771-A31B794C6E6E

P698

Q36558130-C83CB989-D600-4201-866F-221D4866EAA9

P818

Q36558130-FAB80643-AD92-47FB-8FAE-E3D7B33DA32B

P932

Q36558130-5C85A2FC-AC66-47AE-AE0F-ADD3A470ABAC

P356

PNAS.0712158105

P1433

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

P1476

Probing microscopic origins of confined subdiffusion by first-passage observables.

@en

P2093

J Klafter

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

O Bénichou

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

R Voituriez

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

S Condamin

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

V Tejedor

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

P2860

Subdiffusion and Anomalous Local Viscoelasticity in Actin Networks

Anomalous diffusion in disordered media: Statistical mechanisms, models and physical applications

Mechanics of living cells measured by laser tracking microrheology.

Anomalous diffusion of fluorescent probes inside living cell nuclei investigated by spatially-resolved fluorescence correlation spectroscopy.

Anomalous diffusion due to binding: a Monte Carlo study

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

Anomalous diffusion due to obstacles: a Monte Carlo study

Automated detection and tracking of individual and clustered cell surface low density lipoprotein receptor molecules.

A biological interpretation of transient anomalous subdiffusion. I. Qualitative model

How gene order is influenced by the biophysics of transcription regulation.

P304

5675-5680

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

P31

scholarly article

P356

10.1073/PNAS.0712158105

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

P407

P433

15

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

P478

105

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

P577

2008-04-07T00:00:00Z

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

P5875

5461770

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

P698

18391208

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

P818

0806.3326

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

P932

2311379

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