Kara G. Pratt
Affiliations: | University of Wyoming, Laramie, WY, United States |
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"Kara Pratt"Mean distance: 13.89 (cluster 11) | S | N | B | C | P |
Parents
Sign in to add mentor| Paul A. Rosenberg | research assistant | Harvard Medical School | ||
| Gina G. Turrigiano | grad student | 2004 | Brandeis | |
| (Activity-dependent remodeling of presynaptic inputs by postsynaptic expression of activated CaMKII.) | ||||
| Carlos D. Aizenman | post-doc | Brown | ||
| Jane M. Sullivan | post-doc | University of Washington | ||
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Publications
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| Udoh UG, Bruno JR, Osborn PO, et al. (2024) Serotonin strengthens a developing glutamatergic synapse through a PI3K-dependent mechanism. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
| Pratt KG. (2021) Electrophysiological Approaches to Studying Normal and Abnormal Retinotectal Circuit Development in the Tadpole. Cold Spring Harbor Protocols |
| Liu Z, Thakar A, Santoro SW, et al. (2018) Presenilin regulates retinotectal synapse formation through EphB2 receptor processing. Developmental Neurobiology |
| Liu Z, Donnelly KB, Pratt KG. (2018) Preparations and Protocols for Whole Cell Patch Clamp Recording of Xenopus laevis Tectal Neurons. Journal of Visualized Experiments : Jove |
| Hamodi AS, Liu Z, Pratt KG. (2016) An NMDA receptor-dependent mechanism for subcellular segregation of sensory inputs in the tadpole optic tectum. Elife. 5 |
| Pratt KG, Hiramoto M, Cline HT. (2016) An Evolutionarily Conserved Mechanism for Activity-Dependent Visual Circuit Development. Frontiers in Neural Circuits. 10: 79 |
| Truszkowski TL, James EJ, Hasan M, et al. (2016) Fragile X mental retardation protein knockdown in the developing Xenopus tadpole optic tectum results in enhanced feedforward inhibition and behavioral deficits. Neural Development. 11: 14 |
| Liu Z, Hamodi AS, Pratt KG. (2016) Early development and function of the Xenopus tadpole retinotectal circuit. Current Opinion in Neurobiology. 41: 17-23 |
| Pratt KG, Prather JF. (2016) Systems Neuroscience: How the Cortex Contributes to Skilled Movements. Current Biology : Cb. 26: R64-6 |
| Liu Z, Ciarleglio CM, Hamodi AS, et al. (2016) A population of gap junction coupled neurons drives recurrent network activity in a developing visual circuit. Journal of Neurophysiology. jn.01046.2015 |