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The filament sensor for near real-time detection of cytoskeletal fiber structuresSulfo-SMCC Prevents Annealing of Taxol-Stabilized Microtubules In VitroForce fluctuations in three-dimensional suspended fibroblasts.Limits of Applicability of the Voronoi Tessellation Determined by Centers of Cell Nuclei to Epithelium Morphology.Contractile forces sustain and polarize hematopoiesis from stem and progenitor cells.Mechanotransduction: use the force(s).Cell responses to the mechanochemical microenvironment--implications for regenerative medicine and drug delivery.X-Ray Micro- and Nanodiffraction Imaging on Human Mesenchymal Stem Cells and Differentiated Cells.Novel growth regime of MDCK II model tissues on soft substrates.Cell shape, spreading symmetry and the polarization of stress-fibers in cells.Optimal matrix rigidity for stress fiber polarization in stem cells.Preparation of collagen-coated gels that maximize in vitro myogenesis of stem cells by matching the lateral elasticity of in vivo muscle.Selective deposition of native cell membranes on biocompatible micropatterns.Coordinated increase of nuclear tension and lamin-A with matrix stiffness outcompetes lamin-B receptor that favors soft tissue phenotypes.Rhombic organization of microvilli domains found in a cell model of the human intestine.Mechanical properties of interacting lipopolysaccharide membranes from bacteria mutants studied by specular and off-specular neutron scattering.Microtissue elasticity: measurements by atomic force microscopy and its influence on cell differentiation.Elasticity of 3D networks with rigid filaments and compliant crosslinks.Oligomer-to-polymer transition in short ethylene glycol chains connected to mobile hydrophobic anchors.Micro-topography influences blood platelet spreading.Myotubularin related protein-2 and its phospholipid substrate PIP2 control Piezo2-mediated mechanotransduction in peripheral sensory neurons.Dual-color metal-induced and förster resonance energy transfer for cell nanoscopy.Robust Heterogeneous Hydrogels with Dynamic Nanocrystal-Polymer Interface.Structures of regenerated cellulose films revealed by grazing incidence small-angle x-ray scattering.Topology determines force distributions in one-dimensional random spring networks.Topology Counts: Force Distributions in Circular Spring NetworksHyaluronic acid matrices show matrix stiffness in 2D and 3D dictates cytoskeletal order and myosin-II phosphorylation within stem cellsModulation of intermembrane interaction and bending rigidity of biomembrane models via carbohydrates investigated by specular and off-specular neutron scatteringReversible Activation of Diblock Copolymer Monolayers at the Interface by pH Modulation, 1: Lateral Chain Density and ConformationReversible Activation of Diblock Copolymer Monolayers at the Interface by pH Modulation, 2: Membrane Interactions at the Solid/Liquid InterfaceWetting and dewetting of extracellular matrix and glycocalix modelsSwelling Behavior of Polyelectrolyte Multilayers in Saturated Water VaporHydration Forces in Ultrathin Films of Cellulose†Static and Dynamic Swelling of Grafted Poly(2-alkyl-2-oxazoline)sThe 2018 correlative microscopy techniques roadmap
P50
Q28547404-7611542D-42F3-40E7-BF25-E3384E4879CAQ28553717-BF28C015-85F5-4614-B9E7-1264750036DCQ30611173-EC3D6ECB-CFB3-473B-9A8C-299B6FAC2D28Q30829720-1B2350D7-D5F6-4A9A-A171-366627668A14Q35051684-64B2B8A3-E8C6-42EF-8ECB-E80739FCC22CQ35682348-0BE9404D-B9F0-43A9-B0D4-364EA5CC069DQ36953868-D537E26E-F6AB-42E8-9DB1-0A3BF21D460AQ38273091-F9FEEC58-831E-431F-BA47-9C5F81FCC155Q38623070-7D965495-3648-4D72-81F6-445D879AE49FQ40403070-B0C325D9-3AFD-4612-88E6-2412E6C54C95Q41073509-FFD831A5-58F2-4C3F-8BA4-E82077097430Q42735359-4DFB98E6-E2E8-4F04-8DAA-561AA7C43308Q44793875-2366B12F-0889-429F-B204-DE723BBE7203Q47771078-C1A5BEB8-0116-4331-9DBF-DDC09ADB2313Q48043817-BF207542-4881-470A-84C3-244CB8E90426Q50052226-1EDABEDD-097C-49A4-BEEE-8A867D2E66A0Q50895194-C07B650D-A605-42E5-9E20-7E2BDF041BA8Q51010204-A1C989FA-67E2-4F31-9B91-4CE94C3B8DEBQ51979103-00A7DC2F-F8FB-41B2-ACE9-1E19B280F010Q52648481-570AB8B7-B192-4D6A-8797-AADDAEAD0DE4Q52665066-C5F11AC3-56FE-421A-AE86-EF6EEA8B53AEQ52695012-EECA061C-5DD4-48C4-A022-7FAFBBDA39D8Q53380963-68E6CC61-05B7-4128-975D-6873C762983AQ53435439-7606A75A-A98E-4BD4-9F01-963FFEB4625FQ53701528-710BD664-D754-4986-9458-2112B5B768C7Q58883935-527F9F5E-49FC-4E3F-9CFA-4340DFBFFA1EQ58883947-C2D62D86-85D0-4268-A935-38216E1FF12EQ58883948-42D6CD61-C28C-4988-8254-4623A26F4C31Q58883951-B2621E3A-E420-4812-AD7E-F64C02DC9383Q58883953-DEA15DA9-FB36-40B2-B4DD-9B815E8F76D4Q58883956-75599DE6-CA8B-4745-9A84-B94F0C4D3FAEQ58883958-93AE5F13-4320-4F26-AF34-1AD81F22043FQ58883960-85DAF5F4-7F78-4F9A-9544-6CD4465688FDQ58883963-D6EEC47C-CF2B-4D8D-8EAC-A251A7FF8C98Q63546932-004F732F-7DF8-4C5E-82F5-CF4737B33895
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Florian Rehfeldt
@ast
Florian Rehfeldt
@en
Florian Rehfeldt
@es
Florian Rehfeldt
@nl
Florian Rehfeldt
@sl
type
label
Florian Rehfeldt
@ast
Florian Rehfeldt
@en
Florian Rehfeldt
@es
Florian Rehfeldt
@nl
Florian Rehfeldt
@sl
prefLabel
Florian Rehfeldt
@ast
Florian Rehfeldt
@en
Florian Rehfeldt
@es
Florian Rehfeldt
@nl
Florian Rehfeldt
@sl
P1006
P214
P1006
P1053
A-1078-2007
P106
P1153
6602791233
P21
P214
P31
P3829
P496
0000-0001-9086-3835
P735
P7859
lccn-nb2010033110