All terms in GO

Label Id Description
GO_0031678 GO_0031678
GO_0016069 GO_0016069
GO_0016067 GO_0016067
GO_0016066 GO_0016066
obsolete humoral defense mechanism (sensu Protostomia) GO_0016065 [OBSOLETE. The specific immune response mediated by antibodies. As in, but not restricted to, the taxon Protostomia (Protostomia, ncbi_taxonomy_id:33317).]
rhodopsin biosynthetic process GO_0016063 [The chemical reactions and pathways resulting in the formation of rhodopsin, a brilliant purplish-red, light-sensitive visual pigment found in the rod cells of the retinas.]
obsolete adaptation of rhodopsin mediated signaling GO_0016062 [OBSOLETE. The process in which a rhodopsin-mediated signaling pathway is adjusted to modulate the sensitivity and response of a visual system to light stimuli (that might vary over more than 6 magnitudes in intensity) without response saturation.]
alpha-1A adrenergic receptor binding GO_0031691 [Binding to an alpha-1A adrenergic receptor.]
adrenergic receptor binding GO_0031690 [Binding to an adrenergic receptor.]
alpha-1D adrenergic receptor binding GO_0031693 [Binding to an alpha-1D adrenergic receptor.]
alpha-1B adrenergic receptor binding GO_0031692 [Binding to an alpha-1B adrenergic receptor.]
alpha-2B adrenergic receptor binding GO_0031695 [Binding to an alpha-2B adrenergic receptor.]
alpha-2A adrenergic receptor binding GO_0031694 [Binding to an alpha-2A adrenergic receptor.]
beta-1 adrenergic receptor binding GO_0031697 [Binding to a beta-1 adrenergic receptor.]
alpha-2C adrenergic receptor binding GO_0031696 [Binding to an alpha-2C adrenergic receptor.]
tRNA decay GO_0016078 [The chemical reactions and pathways resulting in the breakdown of tRNA, transfer RNA, a class of relatively small RNA molecules responsible for mediating the insertion of amino acids into the sequence of nascent polypeptide chains during protein synthesis.]
obsolete synaptic vesicle fusion GO_0016083 [OBSOLETE. Fusion of the synaptic vesicle with the postsynaptic membrane.]
synaptic vesicle priming GO_0016082 [A process that converts synaptic vesicles to a state of competence for calcium triggered fusion with the active zone membrane by bringing the two membranes into very close proximity. Priming typically (but not always) occurs after docking (Jahn and Fasshauer, 2012). Primed vesicles are also capable of spontaneously fusing with the active zone membrane.]
synaptic vesicle docking GO_0016081 [The initial (indirect) attachment of a synaptic vesicle membrane to the presynaptic active zone membrane, mediated by proteins protruding from the membrane and proteins of the presynaptic active zone cytoplasmic component. Synaptic vesicle tethering is the first step in this process.]
synaptic vesicle targeting GO_0016080 [The process in which synaptic vesicles are directed to specific destination membranes, mediated by molecules at the vesicle membrane and target membrane surfaces.]