|
maintenance of ciliary planar beating movement pattern
|
GO_0120221 |
[Any process involved in maintaining the planar beating pattern of ciliary movement pattern. Connection between the outer doublets and the central pair via the radial spokes constrains ciliary movement to the planar beating pattern. Cilia that lack this connection, such as those in the embryonic node or Kupfer's vesicle, display radial movement.] |
|
basal body patch
|
GO_0120220 |
[The region in the apical portion of multiciliated epithelial cells where the ciliary basal bodies cluster.] |
|
protein localization to motile cilium
|
GO_0120229 |
[A process in which a protein is transported to, or maintained in, a location within a motile cilium.] |
|
outer dynein arm docking complex
|
GO_0120228 |
[A complex which stabilizes the binding of and correctly positions the outer dynein arm complex along an A-tubule of the flagellar axoneme outer doublet microtubules.] |
|
succinyl-CoA binding
|
GO_0120226 |
[Binding to succinyl-CoA, an omega-carboxyacyl-CoA having succinoyl as the S-acyl component.] |
|
rod photoreceptor disc lumen
|
GO_0120203 |
[The volume enclosed by the membrane of a rod photoreceptor cell disc membrane.] |
|
rod photoreceptor disc membrane
|
GO_0120202 |
[Stack of disc membranes located inside a rod photoreceptor outer segment, and containing densely packed molecules of rhodopsin photoreceptor proteins that traverse the lipid bilayer. It is thought that rod disc membranes arise as evaginations of the ciliary membrane near the base of the outer segment, which then become completely separated from the ciliary membrane, during the development of the rod outer segment.] |
|
cone photoreceptor disc membrane
|
GO_0120201 |
[Stack of disc membranes located inside a cone photoreceptor outer segment, and containing densely packed molecules of opsin photoreceptor proteins that traverse the lipid bilayer. Cone disc membranes arise as evaginations of the ciliary membrane during the development of the cone outer segment and remain contiguous with the ciliary membrane.] |
|
rod photoreceptor outer segment
|
GO_0120200 |
[The outer segment of a vertebrate rod photoreceptor that contains sealed membrane discs that are not connected to the ciliary membrane and containing rhodopsin photoreceptor proteins.] |
|
cone telodendria
|
GO_0120209 |
[Cone telodendria are projections that originate from the cone pedicle and form gap junctions with other photoreceptors within the outer plexiform layer of the retina.] |
|
endocytosis, site selection
|
GO_0120207 |
[The process of selecting and or marking the position where endocytosis will occur.] |
|
photoreceptor distal connecting cilium
|
GO_0120206 |
[The distal region of the photoreceptor connecting cilium is structurally unique to the photoreceptor and is maintained by retina-specific protein, SPATA7, and its interacting partners RPGR and RPGRIP1. It is essential for photoreceptor sensory cilium stability.] |
|
photoreceptor proximal connecting cilium
|
GO_0120205 |
[The proximal region of the photoreceptor connecting cilium is similar to the transition zone of unspecialized primary cilia and houses several major transition zone complexes, including NPHP, MKS, and RPGR.] |
|
methylcytosine to 5-glyceryl-methylcytosine dioxygenase activity
|
GO_0120204 |
[Catalysis of the reaction: methylcytosine + L-ascorbate + O2 = 5-glyceryl-methylcytosine + glyoxylate + CO2.] |
|
synaptic transmission, GABAergic
|
GO_0051932 |
[The vesicular release of gamma-aminobutyric acid (GABA). from a presynapse, across a chemical synapse, the subsequent activation of GABA receptors at the postsynapse of a target cell (neuron, muscle, or secretory cell) and the effects of this activation on the postsynaptic membrane potential and ionic composition of the postsynaptic cytosol. This process encompasses both spontaneous and evoked release of neurotransmitter and all parts of synaptic vesicle exocytosis. Evoked transmission starts with the arrival of an action potential at the presynapse.] |
|
catecholamine uptake involved in synaptic transmission
|
GO_0051934 |
[The uptake of catecholamine neurotransmitters by neurons or glial cells. This process leads to inactivation and recycling of neurotransmitters.] |
|
catecholamine uptake
|
GO_0090493 |
[The directed movement of catecholamine into a cell.] |
|
amino acid neurotransmitter reuptake
|
GO_0051933 |
[The uptake of amino acid neurotransmitters by neurons or glial cells. This process leads to inactivation and recycling of neurotransmitters.] |
|
gamma-aminobutyric acid import
|
GO_0051939 |
[The directed movement of gamma-aminobutyric acid (GABA, 4-aminobutyrate) into a cell or organelle.] |
|
gamma-aminobutyric acid reuptake
|
GO_0051936 |
[The uptake of gamma-aminobutyric acid (GABA, 4-aminobutyrate) by neurons or glial cells. This process leads to inactivation and recycling of neurotransmitters.] |
