Outer layer of Vb neurons in medial entorhinal cortex project to hippocampal dentate gyrus in mice. [PDF]
Yamamoto N +4 more
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Inactivation of the Medial Entorhinal Cortex Selectively Disrupts Learning of Interval Timing. [PDF]
Heys JG +3 more
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Projection neurons from medial entorhinal cortex to basolateral amygdala are critical for the retrieval of morphine withdrawal memory. [PDF]
Fu Y +16 more
europepmc +1 more source
Synchronous excitation in the superficial and deep layers of the medial entorhinal cortex precedes early sharp waves in the neonatal rat hippocampus. [PDF]
Shipkov D +3 more
europepmc +1 more source
Modification of temporal pattern sensitivity for inputs from medial entorhinal cortex by lateral inputs in hippocampal granule cells. [PDF]
Nakajima N +4 more
europepmc +1 more source
Multiple Running Speed Signals in Medial Entorhinal Cortex [PDF]
Grid cells in medial entorhinal cortex (MEC) can be modeled using oscillatory interference or attractor dynamic mechanisms that perform path integration, a computation requiring information about running direction and speed. The two classes of computational models often use either an oscillatory frequency or a firing rate that increases as a function ...
James R Hinman +2 more
exaly +3 more sources
Complementary Modular Microcircuits of the Rat Medial Entorhinal Cortex [PDF]
The parahippocampal region is organized into different areas, with the medial entorhinal cortex (MEC), presubiculum and parasubiculum prominent in spatial memory. Here, we also describe a region at the extremity of the MEC and bordering the subicular complex, the medial-most part of the entorhinal cortex.
Saikat Ray +2 more
exaly +4 more sources
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AbstractPrincipal neurons in different medial entorhinal cortex (MEC) layers show variations in spatial modulation that stabilize between 15 and 30 days postnatally. These in vivo variations are likely due to differences in intrinsic membrane properties and integrative capacities of neurons.
Canto, C.B., Witter, M.P.
openaire +2 more sources
Astrocytes in the medial entorhinal cortex are required for spatial exploration
Exploring the environment is essential for survival and has traditionally been attributed primarily to neuronal functions. However, the role of astrocytes in regulating exploratory behaviors remains poorly understood. Using fiber photometry and genetically encoded calcium indicators specifically targeted to astrocytes, we show that spatial exploration ...
Zhiqi Yang +2 more
exaly +3 more sources

