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The dentate gyrus has toothlike projections from which it is named. [6] The subgranular zone of the dentate gyrus is one of only two major sites of adult neurogenesis in the brain, and is found in many mammals. [7] The other main site is the subventricular zone in the ventricular system. Other sites may include the striatum and the cerebellum.
The trisynaptic circuit or trisynaptic loop is a relay of synaptic transmission in the hippocampus. The trisynaptic circuit is a neural circuit in the hippocampus, which is made up of three major cell groups: granule cells in the dentate gyrus, pyramidal neurons in CA3, and pyramidal neurons in CA1. The hippocampal relay involves three main ...
The hippocampal subfields are four subfields CA1, CA2, CA3, and CA4 that make up the structure of the hippocampus.Regions described in the hippocampus are the head, body, and tail, and other hippocampal subfields include the dentate gyrus, the presubiculum, and the subiculum.
Typically, the hippocampal formation is said to included the dentate gyrus, the hippocampus, and the subiculum. [2] The presubiculum, parasubiculum, and the entorhinal cortex may also be included. [3] The hippocampal formation is thought to play a role in memory, spatial navigation and control of attention.
The dentate gyrus is composed of a similar series of strata: The polymorphic layer is the most superficial layer of the dentate gyrus and is often considered a separate subfield (as the hilus). This layer contains many interneurons, and the axons of the dentate granule cells pass through this stratum on the way to CA3.
In mice, the projection to CA1, and the subiculum all come primarily from EC layer III. [citation needed]According to Suh et al. (2011 Science 334:1415) the projection to CA3 and dentate gyrus in mice is primarily from layer II of entorhinal cortex, and forms a trisynaptic path with hippocampus (dentate gyrus to CA3 to CA1), distinguished from the direct (monosynaptic) perforant path from ...
The principal cell type of the dentate gyrus is the granule cell. The dentate gyrus granule cell has an elliptical cell body with a width of approximately 10 μm and a height of 18μm. [3] The granule cell has a characteristic cone-shaped tree of spiny apical dendrites.
Adult neurogenesis in the subventricular zone and dentate gyrus of rodents generates oxidative stress and production of reactive oxygen species that can damage both DNA and lipids. [34] The oxidative stress caused by postnatal neurogenesis may significantly contribute to the reduced learning and memory that occurs with increasing age.