Neural encoding of navigable space involves a network of structures centered on the hippocampus, whose neurons –place cells – encode current location. Input to the place cells includes afferents from the entorhinal cortex, which contains grid cells. These are neurons expressing spatially localized activity patches, or firing fields, that are evenly spaced across the floor in a hexagonal close-packed array called a grid. It is thought that grids function to enable the calculation of distances. The question arises as to whether this odometry process operates in three dimensions, and so we queried whether grids permeate three-dimensional (3D) space – that is, form a lattice – or whether they simply follow the environment surface. If grids form...
The unitary firing fields of hippocampal place cells are commonly assumed to be generated by input f...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Lattices abound in nature-from the crystal structure of minerals to the honey-comb organization of o...
Entorhinal grid cells integrate sensory and self-motion inputs to provide a spatial metric of a char...
We investigated how entorhinal grid cells encode volumetric space. On a horizontal surface, grid cel...
Grid cells are neurons whose regularly spaced firing fields form apparently symmetric arrays, or gri...
The subjective sense of space may result in part from the combined activity of place cells in the hi...
Grid cells produce a periodic hexagonal array of firing fields when the rat navigates on a horizonta...
Place cells are spatially modulated neurons found in the hippocampus that underlie spatial memory an...
Grid cells are space-modulated neurons with periodic firing fields. In moving animals, the multiple ...
The mammalian hippocampal formation provides neuronal representations of environmental location but ...
Place cells in the hippocampus represent places by increasing their firing rate when an animal visit...
Entorhinal grid cells, characterized by spatially periodic activity patterns, are thought to provide...
Grid cells are neurons active in multiple fields arranged in a hexagonal lattice and are thought to ...
The brain has an extraordinary ability to create an internal spatial map of the external world [1]. ...
The unitary firing fields of hippocampal place cells are commonly assumed to be generated by input f...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Lattices abound in nature-from the crystal structure of minerals to the honey-comb organization of o...
Entorhinal grid cells integrate sensory and self-motion inputs to provide a spatial metric of a char...
We investigated how entorhinal grid cells encode volumetric space. On a horizontal surface, grid cel...
Grid cells are neurons whose regularly spaced firing fields form apparently symmetric arrays, or gri...
The subjective sense of space may result in part from the combined activity of place cells in the hi...
Grid cells produce a periodic hexagonal array of firing fields when the rat navigates on a horizonta...
Place cells are spatially modulated neurons found in the hippocampus that underlie spatial memory an...
Grid cells are space-modulated neurons with periodic firing fields. In moving animals, the multiple ...
The mammalian hippocampal formation provides neuronal representations of environmental location but ...
Place cells in the hippocampus represent places by increasing their firing rate when an animal visit...
Entorhinal grid cells, characterized by spatially periodic activity patterns, are thought to provide...
Grid cells are neurons active in multiple fields arranged in a hexagonal lattice and are thought to ...
The brain has an extraordinary ability to create an internal spatial map of the external world [1]. ...
The unitary firing fields of hippocampal place cells are commonly assumed to be generated by input f...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Lattices abound in nature-from the crystal structure of minerals to the honey-comb organization of o...