|
positive regulation of keratinocyte proliferation
|
GO_0010838 |
[Any process that increases the rate, frequency or extent of keratinocyte proliferation. Keratinocyte proliferation is the multiplication or reproduction of keratinocytes, resulting in the expansion of a cell population.] |
|
positive regulation of epithelial cell proliferation
|
GO_0050679 |
[Any process that activates or increases the rate or extent of epithelial cell proliferation.] |
|
positive regulation of myotube differentiation
|
GO_0010831 |
[Any process that activates, maintains or increases the frequency, rate or extent of myotube differentiation. Myotube differentiation is the process in which a relatively unspecialized cell acquires specialized features of a myotube cell. Myotubes are multinucleated cells that are formed when proliferating myoblasts exit the cell cycle, differentiate and fuse.] |
|
positive regulation of striated muscle cell differentiation
|
GO_0051155 |
[Any process that activates or increases the frequency, rate or extent of striated muscle cell differentiation.] |
|
negative regulation of mesenchymal stem cell migration
|
GO_1905321 |
[Any process that stops, prevents or reduces the frequency, rate or extent of mesenchymal stem cell migration.] |
|
regulation of mesenchymal stem cell migration
|
GO_1905320 |
[Any process that modulates the frequency, rate or extent of mesenchymal stem cell migration.] |
|
negative regulation of myotube differentiation
|
GO_0010832 |
[Any process that decreases the frequency, rate or extent of myotube differentiation. Myotube differentiation is the process in which a relatively unspecialized cell acquires specialized features of a myotube cell. Myotubes are multinucleated cells that are formed when proliferating myoblasts exit the cell cycle, differentiate and fuse.] |
|
positive regulation of mesenchymal stem cell migration
|
GO_1905322 |
[Any process that activates or increases the frequency, rate or extent of mesenchymal stem cell migration.] |
|
superficial part of temporalis
|
UBERON_0011305 |
[The superficial temporalis muscle is a separable part of the temporalis muscle that attaches to the temporalis fascia.] |
|
striated
|
PATO_0001410 |
[A shape quality inhering in a bearer by virtue of the bearer's being marked by narrow lines or grooves, usually parallel.] |
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deep part of temporalis
|
UBERON_0011306 |
[The deep temporalis muscle is a separable part of the temporalis muscle that that attaches to the bony wall of the braincase and is deep to the superficial temporalis.] |
|
body of mandible
|
UBERON_0011309 |
[The zone of the mandible that carries the teeth.] |
|
transmitter-gated monoatomic ion channel activity
|
GO_0022824 |
[Enables the transmembrane transfer of an ion by a channel that opens when a specific neurotransmitter has been bound by the channel complex or one of its constituent parts.] |
|
transmitter-gated channel activity
|
GO_0022835 |
[Enables the transmembrane transfer of a solute by a channel that opens when a specific neurotransmitter has been bound by the channel complex or one of its constituent parts.] |
|
blood microvessel
|
UBERON_8410081 |
[Any of the smallest blood vessels where blood circulates within organ tissues. Microvessels include terminal arterioles, metarterioles, capillaries, and venules (but exclude lymphatic capillaries). Arterioles carry oxygenated blood to the capillaries, and blood flows out of the capillaries through venules into veins.] |
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tubular
|
PATO_0002299 |
[A cylindrical shape that is hollow.] |
|
corneal endothelium
|
UBERON_0001985 |
[A monolayer of specialized, flattened, mitochondria-rich cells that lines the posterior surface of the cornea and faces the anterior chamber of the eye[WP].] |
|
peptide receptor activity
|
GO_0001653 |
[Combining with an extracellular or intracellular peptide to initiate a change in cell activity.] |
|
epithelial tube open at both ends
|
UBERON_0007500 |
[An epithelial tube open at both ends that allows fluid flow.] |
|
vascular cord
|
UBERON_0006965 |
[The vascular cord is the primordial vasculature that will develop into blood vessels by the process of tubulogenesis[GO]. The vascular cord is composed of angioblast or vascular endothelial cells in a solid linear mass called a cord. The cord then undergoes tubulogenesis to form the lumen of the vessels[ZFA].] |
