about
Physical view on migration modesThe vinculin-DeltaIn20/21 mouse: characteristics of a constitutive, actin-binding deficient splice variant of vinculinIntegrin α5β1 facilitates cancer cell invasion through enhanced contractile forces.LMX1B is essential for the maintenance of differentiated podocytes in adult kidneys.Vinculin facilitates cell invasion into three-dimensional collagen matrices.Inefficient clearance of dying cells in patients with SLE: anti-dsDNA autoantibodies, MFG-E8, HMGB-1 and other players.Contractile forces contribute to increased glycosylphosphatidylinositol-anchored receptor CD24-facilitated cancer cell invasion.Contractile forces in tumor cell migration.Focal adhesion kinase activity is required for actomyosin contractility-based invasion of cells into dense 3D matrices.The role of the tissue microenvironment in the regulation of cancer cell motility and invasion.The biomechanical properties of 3d extracellular matrices and embedded cells regulate the invasiveness of cancer cells.Physical break-down of the classical view on cancer cell invasion and metastasis.The role of focal adhesion kinase in the regulation of cellular mechanical properties.The fundamental role of mechanical properties in the progression of cancer disease and inflammation.The phenotype of cancer cell invasion controlled by fibril diameter and pore size of 3D collagen networks.Phagocytized beads reduce the α5β1 integrin facilitated invasiveness of cancer cells by regulating cellular stiffness.CD24 controls Src/STAT3 activity in human tumors.Identification and characterization of srp1, a gene of fission yeast encoding a RNA binding domain and a RS domain typical of SR splicing factors.Neoplastic progression of the human breast cancer cell line G3S1 is associated with elevation of cytoskeletal dynamics and upregulation of MT1-MMP.Expression profiling reveals genes associated with transendothelial migration of tumor cells: a functional role for alphavbeta3 integrin.Corrigendum: Focal adhesion kinase activity is required for actomyosin contractility-based invasion of cells into dense 3D matricesHuman endothelial cells regulate survival and proliferation of human mast cellsFluctuations of cytoskeleton-bound microbeads--the effect of bead-receptor binding dynamics.Role of the endothelium during tumor cell metastasis: is the endothelium a barrier or a promoter for cell invasion and metastasis?Tetracycline-encapsulated P(3HB) microsphere-coated 45S5 Bioglass(®)-based scaffolds for bone tissue engineering.Invasive cancer cells and metastasis. Preface.Development of an in vitro system for the study of allergens and allergen-specific immunoglobulin E and immunoglobulin G: Fcepsilon receptor I supercross-linking is a possible new mechanism of immunoglobulin G-dependent enhancement of type I allergiThe two faces of enhanced stroma: Stroma acts as a tumor promoter and a steric obstacle.Stress fluctuations and motion of cytoskeletal-bound markers.Integrin-linked kinase regulates cellular mechanics facilitating the motility in 3D extracellular matrices.Magnetically Guided Titania Nanotubes for Site-Selective Photocatalysis and Drug ReleaseUp-Regulation of Rho/ROCK Signaling in Sarcoma Cells Drives Invasion and Increased Generation of Protrusive ForcesThe Small GTPase Rac1 Increases Cell Surface Stiffness and Enhances 3D Migration Into Extracellular MatricesHuman intestinal mast cells produce IL-5 in vitro upon IgE receptor cross-linking and in vivo in the course of intestinal inflammatory diseaseEffect of PAK Inhibition on Cell Mechanics Depends on Rac1The Role of the Optical Stretcher Is Crucial in the Investigation of Cell Mechanics Regulating Cell Adhesion and MotilityThe transmembrane protein fibrocystin/polyductin regulates cell mechanics and cell motilityFast and reliable advanced two-step pore-size analysis of biomimetic 3D extracellular matrix scaffoldsCollagen networks determine viscoelastic properties of connective tissues yet do not hinder diffusion of the aqueous solventThe matrix environmental and cell mechanical properties regulate cell migration and contribute to the invasive phenotype of cancer cells
P50
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P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-6622-335X
@en
name
Claudia T Mierke
@ast
Claudia T Mierke
@en
Claudia T Mierke
@es
Claudia T Mierke
@nl
type
label
Claudia T Mierke
@ast
Claudia T Mierke
@en
Claudia T Mierke
@es
Claudia T Mierke
@nl
prefLabel
Claudia T Mierke
@ast
Claudia T Mierke
@en
Claudia T Mierke
@es
Claudia T Mierke
@nl
P106
P1153
14825520000
P21
P31
P496
0000-0002-6622-335X