|
synaptic membrane
|
GO_0097060 |
[A specialized area of membrane on either the presynaptic or the postsynaptic side of a synapse, the junction between a nerve fiber of one neuron and another neuron or muscle fiber or glial cell.] |
|
plasma membrane region
|
GO_0098590 |
[A membrane that is a (regional) part of the plasma membrane.] |
|
adrenal cortex chromaffin cell
|
CL_1000427 |
[A chromaffin cell that is part of the adrenal cortex.] |
|
adrenal gland glandular cell
|
CL_1001601 |
[Hormone secreting cell located in the cortex of adrenal gland. Glandular cells in the adrenal cortex secrete mineralocorticoids, glucocorticoids and androgens.] |
|
human urinary metabolite
|
CHEBI_84087 |
[Any metabolite (endogenous or exogenous) found in human urine samples.] |
|
endothelial cell of artery
|
CL_1000413 |
[A blood vessel endothelial cell that is part of an arterial endothelium.] |
|
blood vessel endothelial cell
|
CL_0000071 |
[An endothelial cell that lines the vasculature.] |
|
endothelial cell of arteriole
|
CL_1000412 |
[An endothelial cell that is part of the arteriole.] |
|
epithelial cell of gallbladder
|
CL_1000415 |
[An epithelial cell that is part of the gallbladder.] |
|
endothelial cell of venule
|
CL_1000414 |
[An endothelial cell that is part of the venule.] |
|
endothelial cell of vascular tree
|
CL_0002139 |
[An endothelial cell of the vascular tree, which includes blood vessels and lymphatic vessels.] |
|
myoepithelial cell of sweat gland
|
CL_1000417 |
[A myoepithelial cell that is part of the sweat gland.] |
|
myoepithelial cell of lactiferous duct
|
CL_1000419 |
[A myoepithelial cell that is part of the lactiferous duct.] |
|
basal-myoepithelial cell of mammary gland
|
CL_0002324 |
[A myoepithelial cell that is part of a mammary gland and is located in the basal layer. During lactation, a basal-myoepithelial cell of mammary gland contracts under the stimulation of oxytocin. In humans, a basal-myoepithelial cell of mammary gland can be identified by high levels of CD49f and low levels of EpCAM.] |
|
myoepithelial cell of lactiferous alveolus
|
CL_1000418 |
[A myoepithelial cell that is part of the mammary gland alveolus.] |
|
positive regulation of extraocular skeletal muscle development
|
GO_0014727 |
[Any process that activates, maintains or increases the frequency, rate or extent of extraocular skeletal muscle development. Extraocular skeletal muscle development is the process whose specific outcome is the progression of the extraocular skeletal muscle over time, from its formation to the mature structure. The extraocular muscle is derived from cranial mesoderm and controls eye movements. The muscle begins its development with the differentiation of the muscle cells and ends with the mature muscle.] |
|
regulation of extraocular skeletal muscle development
|
GO_0014725 |
[Any process that modulates the frequency, rate or extent of extraocular skeletal muscle development. Extraocular skeletal muscle development is the process whose specific outcome is the progression of the extraocular skeletal muscle over time, from its formation to the mature structure. The extraocular muscle is derived from cranial mesoderm and controls eye movements. The muscle begins its development with the differentiation of the muscle cells and ends with the mature muscle.] |
|
endothelial cell of Peyer's patch
|
CL_1000411 |
[An endothelial cell that is part of the small intestine Peyer's patch.] |
|
gut endothelial cell
|
CL_0000131 |
[An endothelial cell that lines the blood and lymphatic vessels of the digestive tract. This cell forms the gut–vascular barrier (GVB) through tight junctions and crosstalk with pericytes and enteric glial cells, regulating the passage of nutrients and immune cells while restricting microbial translocation into the bloodstream.] |
|
negative regulation of extraocular skeletal muscle development
|
GO_0014726 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of extraocular skeletal muscle development. Extraocular skeletal muscle development is the process whose specific outcome is the progression of the extraocular skeletal muscle over time, from its formation to the mature structure. The extraocular muscle is derived from cranial mesoderm and controls eye movements. The muscle begins its development with the differentiation of the muscle cells and ends with the mature muscle.] |
