15 research outputs found
Effect of TiO2 doping on structural and electrical properties of melt-quench V2−xTixO5−δ, 0.15 ≤ x ≤ 0.30 systems
No full textElectrical conductivity and breakdown properties of some erbium oxide doped phosphovanadate glasses
No full textInvestigation of Optical and Electrical Properties of Different Compositions of As-S-Se Thin Films at Thickness 725Â nm With High Precision Using a Wedge-Shaped Optical Model
No full textComplex dielectric permittivity, electric modulus and electrical conductivity analysis of Au/Si3N4/p-GaAs (MOS) capacitor
No full textSynthesis, Mechanical and Optical Features of Dy2O3 Doped Lead Alkali Borosilicate Glasses
No full textStructural, electrical, and transport number studies of AgI-doped silver borotellurite fast ion conducting glass system
No full textStudying monogenetic volcanoes with a terrestrial laser scanner: case study at Croscat volcano (Garrotxa Volcanic Field, Spain)
No full textEffects of V2O5 on elastic, structural, and optical properties of mixed ionic–electronic 20Na2O–20CaO–(60 − x)B2O3–xV2O5 glasses
No full textMolecules that make axons grow.
No full textThe study of neurite growth in tissue culture has been a productive way to identify substances that may control the behavior of axons in vivo. Molecules that promote the outgrowth of neurites include nerve growth factor, laminin, fibronectin, and a protease inhibitor derived from glia. Evidence that these molecules may influence axon growth and guidance in vivo is discussed. The effects these molecules have at the cellular level are compared, in an attempt to identify common mechanisms of action. Several less well-characterized molecules that influence the behavior of neurites are also discussed
