Interesting Papers for Week 37, 2024
Simple spike patterns and synaptic mechanisms encoding sensory and motor signals in Purkinje cells and the cerebellar nuclei. Brown, S. T., Medina-Pizarro, M., Holla, M., Vaaga, C. E., & Raman, I. M. (2024). Neuron, 112(11), 1848-1861.e4.
Disentangling the effects of metabolic cost and accuracy on movement speed. Bruening, G. W., Courter, R. J., Sukumar, S., O’Brien, M. K., & Ahmed, A. A. (2024). PLOS Computational Biology, 20(5), e1012169.
Two Prediction Error Systems in the Nonlemniscal Inferior Colliculus: “Spectral” and “Nonspectral”. Carbajal, G. V, Casado-Román, L., & Malmierca, M. S. (2024). Journal of Neuroscience, 44(23), e2327232024.
In and Out of Criticality? State-Dependent Scaling in the Rat Visual Cortex. Castro, D. M., Feliciano, T., de Vasconcelos, N. A. P., Soares-Cunha, C., Coimbra, B., Rodrigues, A. J., … Copelli, M. (2024). PRX Life, 2(2), 023008.
Visual working memories are abstractions of percepts. Duan, Z., & Curtis, C. E. (2024). eLife, 13, e94191.3.
A scalable spiking amygdala model that explains fear conditioning, extinction, renewal and generalization. Duggins, P., & Eliasmith, C. (2024). European Journal of Neuroscience, 59(11), 3093–3116.
Mesostriatal dopamine is sensitive to changes in specific cue-reward contingencies. Garr, E., Cheng, Y., Jeong, H., Brooke, S., Castell, L., Bal, A., … Janak, P. H. (2024). Science Advances, 10(22).
Astrocytes as a mechanism for contextually-guided network dynamics and function. Gong, L., Pasqualetti, F., Papouin, T., & Ching, S. (2024). PLOS Computational Biology, 20(5), e1012186.
Ventral Pallidum and Amygdala Cooperate to Restrain Reward Approach under Threat. Hernández-Jaramillo, A., Illescas-Huerta, E., & Sotres-Bayon, F. (2024). Journal of Neuroscience, 44(23), e2327232024.
Choice overload interferes with early processing and necessitates late compensation: Evidence from electroencephalogram. Hu, X., Meng, Z., & He, Q. (2024). European Journal of Neuroscience, 59(11), 2995–3008.
Decision-related activity and movement selection in primate visual cortex. Laamerad, P., Liu, L. D., & Pack, C. C. (2024). Science Advances, 10(22).
Intrinsic and synaptic determinants of receptive field plasticity in Purkinje cells of the mouse cerebellum. Lin, T.-F., Busch, S. E., & Hansel, C. (2024). Nature Communications, 15, 4645.
Effects of post-saccadic oscillations on visual processing times. Llapashtica, E., Sun, T., Grattan, K. T. V., & Barbur, J. L. (2024). PLOS ONE, 19(5), e0302459.
Cholinergic Neuromodulation of Prefrontal Attractor Dynamics Controls Performance in Spatial Working Memory. Mahrach, A., Bestue, D., Qi, X.-L., Constantinidis, C., & Compte, A. (2024). Journal of Neuroscience, 44(23), e1225232024.
Binocular receptive-field construction in the primary visual cortex. Olianezhad, F., Jin, J., Najafian, S., Pons, C., Mazade, R., Kremkow, J., & Alonso, J.-M. (2024). Current Biology, 34(11), 2474-2486.e5.
Behavioral strategy shapes activation of the Vip-Sst disinhibitory circuit in visual cortex. Piet, A., Ponvert, N., Ollerenshaw, D., Garrett, M., Groblewski, P. A., Olsen, S., … Arkhipov, A. (2024). Neuron, 112(11), 1876-1890.e4.
Exact Distribution of the Quantal Content in Synaptic Transmission. Rijal, K., Müller, N. I. C., Friauf, E., Singh, A., Prasad, A., & Das, D. (2024). Physical Review Letters, 132(22), 228401.
Phase-dependent word perception emerges from region-specific sensitivity to the statistics of language. Ten Oever, S., Titone, L., te Rietmolen, N., & Martin, A. E. (2024). Proceedings of the National Academy of Sciences, 121(23), e2320489121.
Temporal interference stimulation disrupts spike timing in the primate brain. Vieira, P. G., Krause, M. R., & Pack, C. C. (2024). Nature Communications, 15, 4558.
Theoretical principles explain the structure of the insect head direction circuit. Vilimelis Aceituno, P., Dall’Osto, D., & Pisokas, I. (2024). eLife, 13, e91533.
6 notes
·
View notes