Items where Subject is "parietal cortex"
- CSHL Subject List (9)
- organs, tissues, organelles, cell types and functions (9)
- tissues types and functions (9)
- parietal cortex (9)
- tissues types and functions (9)
- organs, tissues, organelles, cell types and functions (9)
Paper
Feldman, J. A., Zipser, D. (1982) Standards for Neural Modeling. Behavioral and Brain Sciences, 5 (4). p. 642.
Licata, A. M., Kaufman, M. T., Raposo, D., Ryan, M. B., Sheppard, J. P., Churchland, A. K. (May 2017) Posterior parietal cortex guides visual decisions in rats. J Neurosci, 37 (19). pp. 4954-4966. ISSN 0270-6474
Mohan, H., Gallero-Salas, Y., Carta, S., Sacramento, J., Laurenczy, B., Sumanovski, L. T., de Kock, C. P. J., Helmchen, F., Sachidhanandam, S. (May 2018) Sensory representation of an auditory cued tactile stimulus in the posterior parietal cortex of the mouse. Sci Rep, 8 (1). p. 7739. ISSN 2045-2322
Najafi, F., Elsayed, G. F., Cao, R., Pnevmatikakis, E., Latham, P. E., Cunningham, J. P., Churchland, A. K. (October 2019) Excitatory and Inhibitory Subnetworks Are Equally Selective during Decision-Making and Emerge Simultaneously during Learning. Neuron, 105 (1). pp. 165-179. ISSN 0896-6273 (Public Dataset)
Pisupati, S., Chartarifsky, L., Churchland, A. K. (September 2016) Decision Activity in Parietal Cortex - Leader or Follower? Trends Cogn Sci. ISSN 1879-307X (Electronic)1364-6613 (Linking)
Raposo, David, Kaufman, Matthew T., Churchland, Anne K. (December 2014) A category-free neural population supports evolving demands during decision-making. Nature Neuroscience, 17 (12). pp. 1784-1792. ISSN 1546-1726
Conference or Workshop Item
Sheppard, J. P., Ryan, M.B., Churchland, A. K. (November 2013) Optogenetic stimulation of visual inputs to posterior parietal cortex biases choice behavior of rats on a multisensory decision task. In: Neuroscience 2013, Nov 9th-13th 2013, San Diego, CA.
Dataset
Raposo, D., Kaufman, M. T., Churchland, A. K. (2014) Datasets from "Raposo, David and Kaufman, Matthew T. and Churchland, Anne K. (2014) A category-free neural population supports evolving demands during decision-making. Nature Neuroscience". [Dataset]
Raposo, D., Kaufman, M. T., Churchland, A. K. (2014) Matlab code for running the PAIRS and Variance Alignment Analyses from "Raposo, David and Kaufman, Matthew T. and Churchland, Anne K. (2014) A category-free neural population supports evolving demands during decision-making. Nature Neuroscience". [Dataset]