Laurence D. Picton
Affiliations: | University of St Andrews, Saint Andrews, Scotland, United Kingdom |
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"Laurence Picton"Mean distance: 16.18 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| Gareth B. Miles | grad student | 2012- | University of St Andrews |
| Keith Sillar | grad student | 2012- | University of St Andrews |
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Publications
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| Hachoumi L, Rensner R, Richmond C, et al. (2022) Bimodal modulation of short-term motor memory via dynamic sodium pumps in a vertebrate spinal cord. Current Biology : Cb |
| Picton LD, Bertuzzi M, Pallucchi I, et al. (2021) A spinal organ of proprioception for integrated motor action feedback. Neuron |
| Song J, Pallucchi I, Ausborn J, et al. (2020) Multiple Rhythm-Generating Circuits Act in Tandem with Pacemaker Properties to Control the Start and Speed of Locomotion. Neuron |
| Picton LD, Sillar KT, Zhang HY. (2018) Control of Xenopus Tadpole Locomotion via Selective Expression of Ih in Excitatory Interneurons. Current Biology : Cb. 28: 3911-3923.e2 |
| Zhang HY, Picton L, Li WC, et al. (2017) Corrigendum: Mechanisms underlying the activity-dependent regulation of locomotor network performance by the Na+ pump. Scientific Reports. 7: 46909 |
| Picton LD, Zhang H, Sillar KT. (2017) Sodium pump regulation of locomotor control circuits. Journal of Neurophysiology. jn.00066.2017 |
| Picton LD, Nascimento F, Broadhead MJ, et al. (2017) Sodium Pumps Mediate Activity-Dependent Changes in Mammalian Motor Networks. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 37: 906-921 |
| Picton LD, Nascimento F, Broadhead MJ, et al. (2016) Sodium pumps mediate activity-dependent changes in mammalian motor networks. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
| Picton LD, Sillar KT. (2016) Mechanisms underlying the endogenous dopaminergic inhibition of spinal locomotor circuit function in Xenopus tadpoles. Scientific Reports. 6: 35749 |
| Zhang HY, Picton L, Li WC, et al. (2015) Mechanisms underlying the activity-dependent regulation of locomotor network performance by the Na(+) pump. Scientific Reports. 5: 16188 |