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stomach neuroendocrine cell differentiation
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GO_0061102 |
[The process in which a relatively unspecialized cell acquires specialized features of a neuroendocrine cell of the stomach epithelium.] |
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stomach development
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GO_0062094 |
[The process whose specific outcome is the progression of the stomach over time, from its formation to the mature structure. The stomach is an expanded region of the vertebrate alimentary tract that serves as a food storage compartment and digestive organ.] |
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third sacral spinal cord segment
|
UBERON_0006462 |
|
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fourth sacral spinal cord segment
|
UBERON_0006463 |
|
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positive regulation of receptor localization to synapse
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GO_1902685 |
[Any process that activates or increases the frequency, rate or extent of receptor localization to synapse.] |
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first sacral spinal cord segment
|
UBERON_0006460 |
|
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second sacral spinal cord segment
|
UBERON_0006461 |
|
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negative regulation of stomach neuroendocrine cell differentiation
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GO_0061106 |
[Any process that decreases the rate, frequency or extent of the differentiation of a neuroendocrine cell in the stomach.] |
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regulation of stomach neuroendocrine cell differentiation
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GO_0061105 |
[Any process that modulates the rate, frequency or extent of the differentiation of a neuroendocrine cell in the stomach.] |
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inhibition of neuroepithelial cell differentiation
|
GO_0002085 |
[Any process that prevents the activation of neuroepithelial cell differentiation. Neuroepithelial cell differentiation is the process in which epiblast cells acquire specialized features of neuroepithelial cells.] |
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L-selectin (mouse)
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PR_P18337 |
[An L-selectin that is encoded in the genome of mouse.] |
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twelfth thoracic spinal cord segment
|
UBERON_0006468 |
|
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C1 segment of cervical spinal cord
|
UBERON_0006469 |
[The segment of the spinal cord that corresponds to the first cervical vertebra in most mammals.] |
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tenth thoracic spinal cord segment
|
UBERON_0006466 |
|
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eleventh thoracic spinal cord segment
|
UBERON_0006467 |
|
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lung neuroendocrine cell differentiation
|
GO_0061100 |
[The process in which a relatively unspecialized cell acquires specialized features of a neuroendocrine cell of the lung epithelium.] |
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respiratory basal cell differentiation
|
GO_1902691 |
[The process in which a relatively unspecialized cell acquires the specialized features of a respiratory basal cell.] |
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Brodmann (1909) area 31
|
UBERON_0006475 |
[Brodmann area 31, also known as dorsal posterior cingulate area 31, is a subdivision of the cytoarchitecturally defined cingulate region of the cerebral cortex. In the human it occupies portions of the posterior cingulate gyrus and medial aspect of the parietal lobe. Approximate boundaries are the cingulate sulcus dorsally and the parieto-occipital sulcus caudally. It partially surrounds the subparietal sulcus, the ventral continuation of the cingulate sulcus in the parietal lobe. Cytoarchitecturally it is bounded rostrally by the ventral anterior cingulate area 24, ventrally by the ventral posterior cingulate area 23, dorsally by the gigantopyramidal area 4 and preparietal area 5 and caudally by the superior parietal area 7 (H) (Brodmann-1909).] |
|
Brodmann (1909) area 33
|
UBERON_0006476 |
[Brodmann area 33, also known as pregenual area 33, is a subdivision of the cytoarchitecturally defined cingulate region of cerebral cortex. It is a narrow band located in the anterior cingulate gyrus adjacent to the supracallosal gyrus in the depth of the callosal sulcus, near the genu of the corpus callosum. Cytoarchitecturally it is bounded by the ventral anterior cingulate area 24 and the supracallosal gyrus (Brodmann-1909).] |
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Brodmann (1909) area 18
|
UBERON_0006473 |
|
