1 Tolman E C. Cognitive maps in rats and men. Psychol Rev, 1948, 55: 189-208
[2]
5 Taube J S, Muller R U, Ranck J B. Head-direction cells recorded from the postsubiculum in freely moving rats. I. Description and quantitative analysis. J Neurosci, 1990, 10: 420-435
[3]
6 Taube J S, Muller R U, Ranck J B. Head-direction cells recorded from the postsubiculum in freely moving rats. II. Effects of environmental manipulations. Neuroscience, 1990, 10: 436-447
[4]
7 Brun V H, Otnass M K, Molden S, et al. Place cells and place recognition maintained by direct entorhinal-hippocampal circuitry. Science, 2002, 296: 2243-2246
[5]
8 Fyhn M, Molden S, Witter M P, et al. Spatial representation in the entorhinal cortex. Science, 2004, 305: 1258-1264
[6]
9 Hafting T, Fyhn M, Molden S, et al. Microstructure of a spatial map in the entorhinal cortex. Nature, 2005, 436: 801-806
[7]
10 Hartley T, Burgess N, Lever C, et al. Modeling place fields in terms of the cortical inputs to the hippocampus. Hippocampus, 2000, 10: 369-379
[8]
11 Solstad T, Boccara C N, Kropff E, et al. Representation of geometric borders in the entorhinal cortex. Science, 2008, 322: 1865-1868
[9]
12 Lever C L, Burton S, Jeewajee A. Boundary vector cells in the subiculum of the hippocampal formation. J Neurosci, 2009, 29: 9771-9777
[10]
13 Sargolini F, Fyhn M, Hafting T, et al. Conjunctive representation of position, direction, and velocity in entorhinal cortex. Science, 2006, 312: 758-762
[11]
14 Zhang S J, Ye J, Miao C, et al. Optogenetic dissection of entorhinal-hippocampal functional connectivity. Science, 2013, 340: 1232627
[12]
2 Hubel D H, Wiesel T N. Receptive fields of single neurones in the cat's striate cortex. J Physiol, 1959, 148: 574-591
[13]
3 O'Keefe J, Dostrovsky J. The hippocampus as a spatial map. Preliminary evidence from unit activity in the freely-moving rat. Brain Res, 1971, 34: 171-175
[14]
4 O'Keefe J, Nadel L. The Hippocampus as a Cognitive Map. Oxford: Oxford Univeristy Press, 1978
