Terminology Service for NFDI4Health
All terms in UBERON
| Label | Id | Description |
|---|---|---|
| compound eye | UBERON_0000018 | [A light sensing organ composed of ommatidia] |
| pharyngeal gill | UBERON_0000206 | [A gill that develops in the walls of the pharynx along a series of gill slits opening to the exterior. In fish, the gills are located on both sides of the pharynx.] |
| papula | UBERON_0000205 | [A thin protuberance on the surface of the body of an echinoderm containing diverticula of the water vascular system lined by ciliated peritoneum. Along with tube feet, provide the principle gas exchange surfaces..] |
| spinal artery | UBERON_0002458 | [Arteries that supply the spinal cord.] |
| caudal part of spinal trigeminal nucleus | UBERON_0002866 | |
| left common carotid artery plus branches | UBERON_0001536 | [The leftmost of the two common carotid arteries, originating from the aortic arch in the thorax.] |
| central gray substance of medulla | UBERON_0002867 | |
| tibial artery | UBERON_0007610 | [The anterior and posterior arteries created at the bifurcation of the popliteal artery. The anterior tibial artery begins at the lower border of the popliteus muscle and lies along the tibia at the distal part of the leg to surface superficially anterior to the ankle joint. Its branches are distributed throughout the leg, ankle, and pes. The posterior tibial artery begins at the lower border of the popliteus muscle, lies behind the tibia in the lower part of its course, and is found situated between the medial malleolus and the medial process of the calcaneal tuberosity. Its branches are distributed throughout the leg and foot.] |
| commissural nucleus of vagus nerve | UBERON_0002868 | |
| diffuse reticular nucleus | UBERON_0002869 | |
| obsolete cellular lens | UBERON_0000208 | |
| trochophore stage | UBERON_0014862 | [A larval stage of a trochozoan in which the organism is in free-swimming planktonic form with several bands of cilia[WP,modified].] |
| cingulate cortex | UBERON_0003027 | [The cingulate cortex is a part of the brain situated in the medial aspect of the cortex. It is extended from the corpus callosum below to the cingulate sulcus above, at least anteriorly. [WP,unvetted].] |
| glaucothoe stage | UBERON_0014861 | [A developmental stage in a hermit crab that has completed the swimming larval stages.] |
| UBERON_0013530 | UBERON_0013530 | |
| anterior intercostal vein | UBERON_0012200 | [The anterior intercostal veins are the veins which drain the anterior intercostal space.] |
| intercostal vein | UBERON_0012197 | [The intercostal veins are a group of veins which drain the area between the ribs.] |
| copepodite stage | UBERON_0014860 | [A development stage of copepods which follows the nauplius stage. It is segmented with more than 3 pairs of appendages] |
| Brodmann (1909) area 4 | UBERON_0013535 | [The term area 4 of Brodmann-1909 refers to a cytoarchitecturally defined portion of the frontal lobe of the guenon. It is located predominantly in the precentral gyrus. Brodmann-1909 regarded it as topographically and cytoarchitecturally homologous to the human gigantopyramidal area 4 and noted that it occupies a much greater fraction of the frontal lobe in the monkey than in the human. Distinctive features (Brodmann-1905): the cortex is unusually thick; the layers are not distinct; the cells are relatively sparsely distributed; giant pyramidal (Betz) cells are present in the internal pyramidal layer (V); lack of an internal granular layer (IV) such that the boundary between the external pyramidal layer (III) and the internal pyramidal layer (V) is indistinct; lack of a distinct external granular layer (II); a gradual transition from the multiform layer (VI) to the subcortical white matter.] |
| primary motor cortex | UBERON_0001384 | [The part of the cerebral cortex that receives projections from the motor thalamus and which projects to motor neurons in the brainstem and spinal cord. The motor cortex corresponds to Brodmann's area 4 (MM). The primary motor cortex, or M1, is located on the precentral gyrus and on the anterior paracentral lobule on the medial surface of the brain. Of the three motor cortex areas, stimulation of the primary motor cortex requires the least amount of electrical current to elicit a movement. http://neuroscience.uth.tmc.edu/s3/chapter03.html] |