234. Using in Vivo Electrochemistry To Study the Physiological Effects of Cocaine and Other Stimulants on the Drosophila melanogaster Dopamine Transporter, M. A. Makos, K-A. Han, M. L. Heien, A. G. Ewing, ACS Chemical Neuroscience, 1 (2010) 74-83.

235. Steady-State Electrochemical Determination of Lipidic Nanotube Diameter Utilizing an Artificial Cell Model, K. L. Adams, J. Engelbrektsson, M. Voinova, B. Zhang, D. J. Eves, R. Karlsson, M. L. Heien, AS. Cans, A. G. Ewing, Anal.Chem., 82 (2010) 1020-1026.

236. Tools to Monitor Exocytosis: Focus on New Fluorescent Probes and Methods, A-S. Cans and A. G. Ewing, Cell Science, 6 (2010) 104-122.

237. Micellar Capillary Electrophoresis-Electrochemical Detection of Neurochemicals from Drosophila, N. J. Kuklinski, E. C. Berglund, A. G. Ewing, J. Sepn. Sci. 33 (2010) 388–393.

238. Mass Spectrometry Imaging of Mating Tetrahymena: Changes in Cell Morphology Regulate Lipid Domain Formation, M. E. Kurczy, P. D. Piehowski, C. T. Van Bell, M. L. Heien, N. Winograd, A. G. Ewing, Proc. Natl. Acad. Sci. USA, 107 (2010) 2751-2756.

239. Only a Fraction of Quantal Content is Released During Exocytosis as Revealed by Electrochemical Cytometry of Secretory Vesicles, D. M. Omiatek, Y. Dong, M. L. Heien, A. G. Ewing, ACS Chemical Neuroscience, 1 (2010) 234-245.

240. Nanotome Cluster Bombardment to Recover Spatial Chemistry after Preparation of Biological Samples for SIMS Imaging, M. E. Kurczy, P. D. Piehowski, D. Willingham, K. A. Molyneaux, M. L. Heien, N. Winograd, A. G. Ewing, J. Am. Soc. Mass Spectrom., 21 (2010) 833-836.

241. Determination of Salsolinol, Norsalsolinol, and Twenty-one Biogenic Amines Using MicellarElectrokinetic Capillary Chromatography – Electrochemical Detection, N. J. Kuklinski, E. C. Berglund, J. Engelbreksson, A. G. Ewing, Electrophoresis, 31 (2010) 1886-1893.

242. Development and Characterization of a Voltammetric Carbon-Fiber Microelectrode pH Sensor, M. A. Makos, D. M. Omiatek, A. G. Ewing, L. Heien, Langmuir, 26 (2010) 10386-10391.

243. Analytical Approaches to Investigate Transmitter Content and Release from Single Secretory Vesicles, D. M. Omiatek, A-S. Cans, M. L. Heien, A. G. Ewing, Analytical and Bioanalytical Chemistry, 397 (2010) 3269-3279.

244. Electrochemical Probes for Detection and Analysis of Exocytosis and Vesicles, L. Mellander, A-S. Cans, and A. G. Ewing, ChemPhysChem, 11 (2010) 2756-2763.

245. Time of Flight Mass Spectrometry Imaging of Samples Fractured In Situ with a Spring-Loaded Trap System, I. Lanekoff, M. E. Kurczy, R. Hill, J. S. Fletcher, J. C. Vickerman, N. Winograd, P. Sjovall, A. G. Ewing, Anal. Chem., 82 (2010) 6652-6659.

246. Probing Exocytosis at Single Cells using Electrochemistry, Y. Dong, M. L. Heien, M. E. Kurczy, A. G. Ewing, in “Chemical Cytometry: Ultrasensive Analysis of Single Cells,” C. Lu, Ed., Wiley-VCH, 2010, pp. 159-174.

247. Lipid detection, identification, and imaging single cells with SIMS,M. L. Heien, P. D. Piehowski, N. Winograd, A. G. Ewing, in “Imaging Mass Spectrometry,” Humana Press, S. Rubakhin, J. Sweedler, eds., Methods Mol Biol. 656 (2010) 85-97.

248. Estradiol Inhibits Depolarization-Evoked Exocytosis in PC12 Cells via N-type Voltage-Gated Calcium Channels, K. L. Adams, M. M. Maxson, L. Mellander, R. H. S. Westerink and A. G. Ewing, Cell MolNeurobiol. 30 (2010) 1235-1242.

249. Biogenic Amines in Microdissected Brain Regions of Drosophila melanogaster Measured with MicellarElectrokinetic Capillary Chromatography-Electrochemical Detection, N. J. Kuklinski, E. C. Berglund, J. Engelbrektsson, and A. G. Ewing, Anal. Chem., 82 (2010) 7729-7735 (DOI: 10.1021/ac101603d).