Inputs from subiculum terminate in both superficial and deep layers.

It also has direct connections with hippocampus region CA1 and the subiculum.

It receives also direct afferents from the subiculum of the hippocampus.

After CA1 comes an area called the subiculum.

The subiculum (Latin for "support") is the most inferior component of the hippocampal formation.

Both receives information from the subiculum of the hippocampus but in one case indirectly and in the other directly.

The efferent axons of the subiculum follow the fornix.

The mamillary neurons receive axons from the subiculum.

The increased size of the primate subiculum may proportionally enhance its effects on the entorhinal cortex.

They do not create gills; instead, the cap bottom is covered by an initially soft, white hyphen fungus, also known as a subiculum.

The anterior region receives a particular afference that is not entirely subcortical (directly or indirectly from the subiculum).

The pyramidal neurons in the subiculum exhibit transitions between two modes of action potential output: bursting and single spiking.

Layer II of the entorhinal cortex and the subiculum, both critical for memory consolidation, are among the first affected by the damage.

In turn, CA1 projects to the subiculum as well as sending information along the aforementioned output paths of the hippocampus.

The floating balls are sometimes enclosed in a loose subiculum, with a whitish surface that is byssoid (consisting of fine threads).

In 8 of 12 people, the entorhinal cortex flashed brightly, while another region, called the subiculum, also in the hippocampus, glowed dully.

The fungus grows on decaying wood, and the fruit bodies are characterized by an extensive velvet-like subiculum (a crust-like growth of mycelium).

CA1 pyramidal cells make up a homogeneous population which together with relatives in subiculum comprise the primary output cells of the hippocampal formation.

Pyramidal cells of CA1 send their axons to the subiculum and deep layers of the EC.

They receive afferents from the mammillary bodies via the mammillothalamic tract and from the subiculum via the fornix.

The alveus arises from cell bodies in the subiculum and hippocampus, and eventually merges with the fimbria of the hippocampus.

The anterior and posterior cingulate gyrus and retrosplenial cortex send projections to subiculum and presubiculum.

The correlated cells of these excited states of the medium spiny neurons in the Nucleus accumbens are shared equally between the subiculum and CA1.

The subiculum, a component of the hippocampal formation, is thought to perform relaying of signals originating in the hippocampus to many other parts of the brain.