Accession Number : ADA309787

Title :   Electrochemistry In and At Single Nerve Cells.

Descriptive Note : Final rept.,

Corporate Author : PENNSYLVANIA STATE UNIV UNIVERSITY PARK DEPT OF CHEMISTRY

Personal Author(s) : Ewing, Andrew G.

PDF Url : ADA309787

Report Date : 01 JUN 1996

Pagination or Media Count : 9

Abstract : Multiple Classes of Catecholamine Vesicles Observed During Exocytosis from the Planorbis Cell Body, Observation and Quantitation of Exocytosis from the Cell Body of a Fully Developed Neuron in Planorbis corneus, The Latency of Exocytosis Varies with the Mechanism of Stimulated Release in PC12 Cells, Electrochemical Monitoring of Individual Exocytosis Events from the Varicosities of Differentiated PCl2 Cells, Characterization of the Effects of varying the pH and Monomer Concentration on Poly(oxyphenylene) Insulating Films on Carbon Fiber Electrodes, Picoliter Beakers for Capillary Electrophoresis and Voltammetry, Voltammetry of Adenosine After Electrochemical Treatment of Carbon Fiber Electrodes, Laser Activation of Microdisk Electrodes Examined by Fast Scan Rate Voltammetry and Digital Simulation, Amperometric Monitoring of Stimulated Catecholamine Release from Rat Pheochromocytoma (PC12) Cells at Zeptomole Level, Amphetamine Redistributes Dopamine from Synaptic Vesicles to the Cytosol and Promotes Reverse Transport

Descriptors :   *ELECTROCHEMISTRY, *NERVE CELLS, SCANNING, ACTIVATION, STIMULATION(GENERAL), HIGH RATE, MONITORING, CELLS, CARBON FIBERS, LASERS, ELECTRODES, REVERSIBLE, TRANSPORT, RELEASE, MONOMERS, DISKS, CATECHOLAMINES, VOLTAMMETRY, DIGITAL SIMULATION, DOPAMINE, CONCENTRATION(CHEMISTRY), ELECTROPHORESIS, CAPILLARITY, ADENOSINE, AMPHETAMINES.

Subject Categories : Medicine and Medical Research
      Biochemistry

Distribution Statement : APPROVED FOR PUBLIC RELEASE