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Donald ArnoldProfessor of Biological Sciences
Phone: (213) 821-1266
Office: RRI 204B
- B.A. , University of Toronto, 1/1986
- Ph.D. , Johns Hopkins University, 9/1992
- Associate Professor, University of Southern California, 05/10/2007-
- Assistant Professor, University of Southern California, 10/01/1999-05/09/2007
- Post-Doctoral Fellow, Harvard University, 03/01/1997-09/30/1999
- Post-Doctoral Fellow, Rockefeller University, 09/01/1992-02/28/1997
- Subcellular Localization of Neuronal Ion Channels (NINDS/NIH), Don B. Arnold, $1,417,500, 07/01/2010-06/30/2014
- Subcellular targeting of light-responsive opsins for mapping and manipulating neuronal activity (NIMH/NIH), Don Arnold, $2,025,000, 06/01/2009-05/31/2014
- Genetically encoded probes for visualizing neuronal structure and function (NIh (HIGMS)), Don B. Arnold, Richard Roberts, $1,206,200, 08/01/2008-07/31/2012
- Lewis, T. L., Mao, T., Arnold, D. B. (2011). A role for Myosin VI in localization of axonal proteins. PLoS Biology. Vol. 9
- Arnold, D. B. (2009). Actin and microtubule-based cytoskeletal cues direct polarized targeting of proteins in neurons. Science Signaling. Vol. 2 (83)
- Lewis, Jr., T. L., Mao, T., Svoboda, K., Arnold, D. B. (2009). Myosin-dependent targeting of transmembrane proteins to neuronal dendrites. Nature Neuroscience. Vol. 12 (5), pp. 568-76.
- Arnold, D. B., Rivera, J., Chu, P. (2007). The role of Kif5B in Axonal Localization of Kv1 K(+) channels. Europian Journal of Neuroscience. pp. 136-146.
- Chu, P., Rivera, J., Arnold, D. B. (2006). A role for Kif17 in transport of Kv4.2. Journal of Biological Chemistry. Vol. 281, pp. 365-373.
- Rivera, J., Chu, P., Arnold, D. B. (2005). The T1 domain of Kv1.3 mediates intracellular targeting to axons. European Journal of Neuroscience/Blackwell. Vol. (22), pp. p. 1853-62.
- Arnold, D. B. (2003). Rivera, J. F., Ahmad, S., Quick, M. W., Liman, E. R., and Arnold, D. B. Nature Neuroscience.
- Arnold, D. B. (1999). Arnold DB, Clapham DE Molecular determinants for subcellular localization of PSD-95 with an interacting K+ channel. Neuron 23(1):149-57 (1999). Neuron.
- McKnight Technological Innovations in Neuroscience, 2011-2012
- Career Development Award, 2004
- NIH/NSF Career Development Award, Independent Scientist Award, National Institute of Mental Health, 2004
Academic Appointment, Affiliation, and Employment History
Tenure Track Appointments
Description of Research
Summary Statement of Research Interests
Professor Arnold studies how ion channels are targeted to specific subcellular locations in neurons and how electrical activity can modulate that targeting. The physiological properties of a neuron are dependent not only on the properties of ion channels that they expresse, but also on their spatial distributions within that neuron. Little is known about how neurons maintain unique and often complex subcellular patterns of expression for each ion channel. Arnold uses biolistic transfection, confocal microscopy, cellular and molecular biology methods in his work on ion channels in neuron's synapse, axon and dendrite. His lab seeks to answer the following questions: What are the specific protein motifs on an ion channel that specify localization at the axon vs. the dendrite, or at sites that are postsynaptic to one input but not to another? How does electrical stimulation of a specific synapse affect ion channel expression at that synapse? What are the molecular motors that mediate transport of ion channels?
brain, cell, neurobiology, ion channel, neuron, confocal microscopy, membranes & transport
Contracts and Grants Awarded
Honors and Awards
- Department of Biological Sciences
- University of Southern California
- Allan Hancock Foundation Building
- Los Angeles, CA 90089-0371
- Phone: (213) 740 - 1109
- Email: email@example.com