Thomas Jefferson University

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Duncan, Randall
One or more keywords matched the following items that are connected to Duncan, Randall
Item TypeName
Concept Osteoblasts
Academic Article Purinergic signaling is required for fluid shear stress-induced NF-?B translocation in osteoblasts.
Academic Article A model for mechanotransduction in bone cells: the load-bearing mechanosomes.
Academic Article Effects of broad frequency vibration on cultured osteoblasts.
Academic Article Fluid shear-induced NFkappaB translocation in osteoblasts is mediated by intracellular calcium release.
Academic Article Fluid shear-induced ATP secretion mediates prostaglandin release in MC3T3-E1 osteoblasts.
Academic Article Osteoblast Ca(2+) permeability and voltage-sensitive Ca(2+) channel expression is temporally regulated by 1,25-dihydroxyvitamin D(3).
Academic Article The P2X7 nucleotide receptor mediates skeletal mechanotransduction.
Academic Article The Wnt co-receptor LRP5 is essential for skeletal mechanotransduction but not for the anabolic bone response to parathyroid hormone treatment.
Academic Article PTH-induced actin depolymerization increases mechanosensitive channel activity to enhance mechanically stimulated Ca2+ signaling in osteoblasts.
Academic Article Activation of extracellular-signal regulated kinase (ERK1/2) by fluid shear is Ca(2+)- and ATP-dependent in MC3T3-E1 osteoblasts.
Academic Article Dynamic interactions between L-type voltage-sensitive calcium channel Cav1.2 subunits and ahnak in osteoblastic cells.
Academic Article Inhibition of CK2 binding to BMPRIa induces C2C12 differentiation into osteoblasts and adipocytes.
Academic Article P2Y2 receptors regulate osteoblast mechanosensitivity during fluid flow.
Academic Article Caveolin-1 regulates P2X7 receptor signaling in osteoblasts.
Academic Article Cyclic Hydraulic Pressure and Fluid Flow Differentially Modulate Cytoskeleton Re-Organization in MC3T3 Osteoblasts.
Academic Article Hydraulic Pressure during Fluid Flow Regulates Purinergic Signaling and Cytoskeleton Organization of Osteoblasts.
Grant Mechanotransduction: Puringergic Signaling in Bone
Grant Issues of Mechanosensitivity in Osteoblasts
Grant PTH Reduces the Mechanical Threshold in Osteoblasts
Academic Article CK2.3, a Mimetic Peptide of the BMP Type I Receptor, Increases Activity in Osteoblasts over BMP2.
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  • Osteoblasts