|
phospholipid metabolic process
|
GO_0006644 |
[The chemical reactions and pathways involving phospholipids, any lipid containing phosphoric acid as a mono- or diester.] |
|
oculomotor nerve maturation
|
GO_0021625 |
[A developmental process, independent of morphogenetic (shape) change, that is required for the oculomotor nerve to attain its fully functional state. This motor nerve innervates all extraocular muscles except the superior oblique and the lateral rectus muscles. The superior division supplies the levator palpebrae superioris and superior rectus muscles. The inferior division supplies the medial rectus, inferior rectus and inferior oblique muscles. This nerve also innervates the striated muscles of the eyelid. Pupillary constriction and lens movement are mediated by this nerve for near vision. In the orbit the inferior division sends branches that enter the ciliary ganglion where they form functional contacts (synapses) with the ganglion cells. The ganglion cells send nerve fibers into the back of the eye where they travel to ultimately innervate the ciliary muscle and the constrictor pupillae muscle.] |
|
oculomotor nerve development
|
GO_0021557 |
[The process whose specific outcome is the progression of the oculomotor nerve over time, from its formation to the mature structure. This motor nerve innervates all extraocular muscles except the superior oblique and the lateral rectus muscles. The superior division supplies the levator palpebrae superioris and superior rectus muscles. The inferior division supplies the medial rectus, inferior rectus and inferior oblique muscles. This nerve also innervates the striated muscles of the eyelid. Pupillary constriction and lens movement are mediated by this nerve for near vision. In the orbit the inferior division sends branches that enter the ciliary ganglion where they form functional contacts (synapses) with the ganglion cells. The ganglion cells send nerve fibers into the back of the eye where they travel to ultimately innervate the ciliary muscle and the constrictor pupillae muscle.] |
|
oculomotor nerve morphogenesis
|
GO_0021622 |
[The process in which the anatomical structure of the oculomotor nerve is generated and organized. This motor nerve innervates all extraocular muscles except the superior oblique and the lateral rectus muscles. The superior division supplies the levator palpebrae superioris and superior rectus muscles. The inferior division supplies the medial rectus, inferior rectus and inferior oblique muscles. This nerve also innervates the striated muscles of the eyelid. Pupillary constriction and lens movement are mediated by this nerve for near vision. In the orbit the inferior division sends branches that enter the ciliary ganglion where they form functional contacts (synapses) with the ganglion cells. The ganglion cells send nerve fibers into the back of the eye where they travel to ultimately innervate the ciliary muscle and the constrictor pupillae muscle.] |
|
oculomotor nerve formation
|
GO_0021623 |
[The process that gives rise to the oculomotor nerve. This process pertains to the initial formation of a structure from unspecified parts. This motor nerve innervates all extraocular muscles except the superior oblique and the lateral rectus muscles. The superior division supplies the levator palpebrae superioris and superior rectus muscles. The inferior division supplies the medial rectus, inferior rectus and inferior oblique muscles. This nerve also innervates the striated muscles of the eyelid. Pupillary constriction and lens movement are mediated by this nerve for near vision. In the orbit the inferior division sends branches that enter the ciliary ganglion where they form functional contacts (synapses) with the ganglion cells. The ganglion cells send nerve fibers into the back of the eye where they travel to ultimately innervate the ciliary muscle and the constrictor pupillae muscle.] |
|
olfactory nerve formation
|
GO_0021628 |
[The process that gives rise to the olfactory nerve. This process pertains to the initial formation of a structure from unspecified parts. The olfactory nerve is a collection of sensory nerve rootlets that extend down from the olfactory bulb to the olfactory mucosa of the upper parts of the nasal cavity. This nerve conducts odor information to the brainstem.] |
|
olfactory nerve morphogenesis
|
GO_0021627 |
[The process in which the anatomical structure of the olfactory nerve is generated and organized. The olfactory nerve is a collection of sensory nerve rootlets that extend down from the olfactory bulb to the olfactory mucosa of the upper parts of the nasal cavity. This nerve conducts odor information to the brainstem.] |
|
central nervous system maturation
|
GO_0021626 |
[A developmental process, independent of morphogenetic (shape) change, that is required for the central nervous system to attain its fully functional state. The central nervous system is the core nervous system that serves an integrating and coordinating function. In vertebrates it consists of the brain and spinal cord. In those invertebrates with a central nervous system it typically consists of a brain, cerebral ganglia and a nerve cord.] |
|
indifferent external genitalia
|
UBERON_0009196 |
|
|
olfactory nerve development
|
GO_0021553 |
[The process whose specific outcome is the progression of the olfactory nerve over time, from its formation to the mature structure. The olfactory nerve is a collection of sensory nerve rootlets that extend down from the olfactory bulb to the olfactory mucosa of the upper parts of the nasal cavity. This nerve conducts odor information to the brainstem.] |
|
tetrapyrrole binding
|
GO_0046906 |
[Binding to a tetrapyrrole, a compound containing four pyrrole nuclei variously substituted and linked to each other through carbons at the alpha position.] |
|
organic cyclic compound binding
|
GO_0097159 |
[Binding to an organic cyclic compound, any molecular entity that contains carbon arranged in a cyclic molecular structure.] |
|
heterocyclic compound binding
|
GO_1901363 |
[Binding to heterocyclic compound.] |
|
tetrapyrrole
|
CHEBI_26932 |
[A natural pigment containing four pyrrole rings joined by one-carbon units linking position 2 of one pyrrole ring to position 5 of the next.] |
|
hypoglossal nerve formation
|
GO_0021620 |
[The process that gives rise to the hypoglossal nerve. This process pertains to the initial formation of a structure from unspecified parts. This motor nerve innervates all the intrinsic and all but one of the extrinsic muscles of the tongue.] |
|
manual digit 1 digitopodial skeleton
|
UBERON_5101463 |
[A subdivision of the skeleton of the autopod consisting of the phalanges of manual digit 1 plus the associated metapodial element.] |
|
digit 1 digitopodial skeleton
|
UBERON_5106048 |
[A subdivision of the skeleton of the autopod consisting of the phalanges of digit 1 plus the associated metapodial element.] |
|
domed
|
PATO_0001789 |
[A curvature quality inhering in a bearer by virtue of the bearer's having a shape resembling a dome.] |
|
curved
|
PATO_0000406 |
[A curvature quality inhering in a bearer by virtue of the bearer's having or being marked by a curve or smoothly rounded bend.] |
|
regulation of neuron projection development
|
GO_0010975 |
[Any process that modulates the rate, frequency or extent of neuron projection development. Neuron projection development is the process whose specific outcome is the progression of a neuron projection over time, from its formation to the mature structure. A neuron projection is any process extending from a neural cell, such as axons or dendrites (collectively called neurites).] |
