Joseph Lee Ransdell
Affiliations: | Miami University (Ohio), Oxford, OH |
Area:
neuroscience, neurophysiology, ion channels, cerebellumGoogle:
"Joseph Ransdell"Mean distance: (not calculated yet)
Parents
Sign in to add mentor| David J. Schulz | grad student | 2008-2013 | University of Missouri Columbia |
| Jeanne M. Nerbonne | post-doc | 2013-2020 | Washington University School Medicine (Cell Biology Tree) |
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Publications
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| Brown SP, Lawson RJ, Moreno JD, et al. (2023) A Reinterpretation of the Relationship Between Persistent and Resurgent Sodium Currents. Biorxiv : the Preprint Server For Biology |
| Ransdell JL, Moreno JD, Bhagavan D, et al. (2022) Intrinsic mechanisms in the gating of resurgent Na currents. Elife. 11 |
| Ransdell JL, Nerbonne JM. (2018) Voltage-gated sodium currents in cerebellar Purkinje neurons: functional and molecular diversity. Cellular and Molecular Life Sciences : Cmls |
| Ransdell JL, Dranoff E, Lau B, et al. (2017) Loss of Navβ4-Mediated Regulation of Sodium Currents in Adult Purkinje Neurons Disrupts Firing and Impairs Motor Coordination and Balance. Cell Reports. 20: 1502 |
| Ransdell JL, Dranoff E, Lau B, et al. (2017) Loss of Navβ4-Mediated Regulation of Sodium Currents in Adult Purkinje Neurons Disrupts Firing and Impairs Motor Coordination and Balance. Cell Reports. 19: 532-544 |
| Lane BJ, Samarth P, Ransdell JL, et al. (2016) Synergistic plasticity of intrinsic conductance and electrical coupling restores synchrony in an intact motor network. Elife. 5 |
| Lane BJ, Samarth P, Ransdell JL, et al. (2016) Author response: Synergistic plasticity of intrinsic conductance and electrical coupling restores synchrony in an intact motor network Elife |
| Bosch MK, Carrasquillo Y, Ransdell JL, et al. (2015) Intracellular FGF14 (iFGF14) Is Required for Spontaneous and Evoked Firing in Cerebellar Purkinje Neurons and for Motor Coordination and Balance. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 35: 6752-69 |
| Victor MB, Richner M, Hermanstyne TO, et al. (2014) Generation of human striatal neurons by microRNA-dependent direct conversion of fibroblasts. Neuron. 84: 311-23 |
| Ransdell JL, Nair SS, Schulz DJ. (2013) Neurons within the same network independently achieve conserved output by differentially balancing variable conductance magnitudes. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 33: 9950-6 |