Author response: A spatial memory signal shows that the parietal cortex has access to a craniotopic representation of space

Humans effortlessly establish a gist-like memory of their environment whenever they enter a new place, a memory that can guide action even in the absence of vision. Neurons in the lateral intraparietal area (LIP) of the monkey exhibit a form of this environmental memory. These neurons respond when a monkey makes a saccade that brings the spatial location of a stimulus that appeared on a number of prior trials, but not on the present trial, into their receptive fields (RFs). The stimulus need never have appeared in the neuron’s RF. This memory response is usually weaker, with a longer latency than the neuron’s visual response. We suggest that these results demonstrate that LIP has access to a supraretinal memory of space, which is activated when the spatial location of the vanished stimulus can be described by a retinotopic vector from the center of gaze to the remembered spatial location.

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A spatial memory signal shows that the parietal cortex has access to a craniotopic representation of space

10.1101/173245 ◽

2017 ◽

Author(s):

Mulugeta Semework ◽

Sara C. Steenrod ◽

Michael E. Goldberg

Keyword(s):

Receptive Field ◽

Spatial Memory ◽

Parietal Cortex ◽

Receptive Fields ◽

Spatial Location ◽

Visual Response ◽

Lateral Intraparietal Area ◽

Representation Of Space ◽

Present Trial

Humans effortlessly establish a gist-like memory of their environment whenever they enter a new place. They can then use this memory to guide action even in the absence of vision. Neurons in the lateral intraparietal area (LIP) of the monkey exhibit a form of this environmental memory, responding when a monkey makes a saccade that brings the spatial location of a stimulus that appeared on a number of prior trials, but not on the present trial into their receptive fields. The stimulus need never have appeared in the receptive field of the neuron. This response is usually weaker with a longer latency than the neuron's visual response. We suggest that these results demonstrate that LIP has access to a craniotopic memory of space, which is activated when the spatial location of the vanished stimulus can be described by a retinotopic vector from the center of gaze to the stimulus.

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Decision letter: A spatial memory signal shows that the parietal cortex has access to a craniotopic representation of space

10.7554/elife.30762.015 ◽

2017 ◽

Keyword(s):

Spatial Memory ◽

Parietal Cortex ◽

Representation Of Space

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Faculty Opinions recommendation of A spatial memory signal shows that the parietal cortex has access to a craniotopic representation of space.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.732682769.793547750 ◽

2018 ◽

Author(s):

Maria Concetta Morrone ◽

Paola Binda ◽

Guido Marco Cicchini

Keyword(s):

Spatial Memory ◽

Parietal Cortex ◽

Representation Of Space

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Neural Representation of Space Using Sinusoidal Arrays

Neural Computation ◽

10.1162/neco.1993.5.6.869 ◽

1993 ◽

Vol 5 (6) ◽

pp. 869-884 ◽

Cited By ~ 40

Author(s):

David S. Touretzky ◽

A. David Redish ◽

Hank S. Wan

Keyword(s):

Computer Simulations ◽

Parietal Cortex ◽

Spatial Information ◽

Sine Wave ◽

Spiking Neurons ◽

Neural Representation ◽

Temporal Dimension ◽

Response Properties ◽

Representation Of Space

O'Keefe (1991) has proposed that spatial information in rats might be represented as phasors: phase and amplitude of a sine wave encoding angle and distance to a landmark. We describe computer simulations showing that operations on phasors can be efficiently realized by arrays of spiking neurons that recode the temporal dimension of the sine wave spatially. Some cells in motor and parietal cortex exhibit response properties compatible with this proposal.

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