|
20th week post-fertilization human stage
|
HsapDv_0000057 |
[Fetal stage when the fetus is over 19 and under 20 weeks of development.] |
|
19th week post-fertilization human stage
|
HsapDv_0000056 |
[Fetal stage when the fetus is over 18 and under 19 weeks of development.] |
|
granulosa cell
|
CL_0000501 |
[A supporting cell for the developing female gamete in the ovary of mammals. They develop from the coelomic epithelial cells of the gonadal ridge. Granulosa cells form a single layer around the mammalian oocyte in the primordial ovarian follicle and advance to form a multilayered cumulus oophorus surrounding the ovum in the Graafian follicle. The major functions of granulosa cells include the production of steroids and LH receptors.] |
|
distal mesopodial endochondral element
|
UBERON_0018099 |
[An endochondral element in the distal portion of the mesopodial skeleton, between the central mesopodial skeleton and the metapodial skeleton.] |
|
protein localization to cell junction
|
GO_1902414 |
[A process in which a protein is transported to, or maintained in, a location within a cell junction.] |
|
21st week post-fertilization human stage
|
HsapDv_0000058 |
[Fetal stage when the fetus is over 20 and under 21 weeks of development.] |
|
mesenchymal cell migration involved in limb bud formation
|
GO_0035322 |
[The orderly movement of a mesenchymal cell from one site to another that will contribute to the formation of a limb bud.] |
|
mesenchymal cell migration
|
GO_0090497 |
[The orderly movement of a mesenchymal cell from one site to another, often during the development of a multicellular organism.] |
|
mesenchyme migration involved in limb bud formation
|
GO_0090496 |
[The migration of mesenchymal tissue that contributes to the formation of a limb bud.] |
|
central nervous system vasculogenesis
|
GO_0022009 |
[The differentiation of endothelial cells from progenitor cells during blood vessel development, and the de novo formation of blood vessels and tubes in the central nervous system. The capillary endothelial cells in the brain are specialized to form the blood-brain barrier.] |
|
negative regulation of skeletal muscle tissue growth
|
GO_0048632 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of skeletal muscle growth.] |
|
regulation of skeletal muscle tissue growth
|
GO_0048631 |
[Any process that modulates the frequency, rate or extent of skeletal muscle growth.] |
|
skeletal muscle tissue growth
|
GO_0048630 |
[The increase in size or mass of a skeletal muscle. This may be due to a change in the fiber number or size.] |
|
detection of electrical stimulus involved in sensory perception
|
GO_0050963 |
[The series of events in which an electrical stimulus is received by a cell and converted into a molecular signal as part of sensory perception.] |
|
detection of electrical stimulus
|
GO_0050981 |
[The series of events by which an electrical stimulus is received and converted into a molecular signal.] |
|
detection of stimulus involved in sensory perception
|
GO_0050906 |
[The series of events involved in sensory perception in which a sensory stimulus is received and converted into a molecular signal.] |
|
sensory perception of electrical stimulus
|
GO_0050952 |
[The series of events required for an organism to receive a sensory electrical stimulus, convert it to a molecular signal, and recognize and characterize the signal. This is a neurological process.] |
|
positive regulation of skeletal muscle tissue growth
|
GO_0048633 |
[Any process that activates, maintains or increases the rate of skeletal muscle growth.] |
|
electroception
|
GO_0050956 |
[The series of events required for an organism to receive an electrical stimulus, convert it to a molecular signal, and recognize and characterize the signal. Many fish possess an electroception sense; for example, the electric eel uses low voltage pulses of electricity for navigation and prey location.] |
|
sulfur oxide
|
CHEBI_48154 |
|
