HTTP 200 OK
Allow: GET, POST, HEAD, OPTIONS
Content-Type: application/json
Vary: Accept
{
"count": 43797,
"next": "https://cinder.proteo.info/api/ms_vocab/?format=api&limit=20&offset=580&ordering=-accession",
"previous": "https://cinder.proteo.info/api/ms_vocab/?format=api&limit=20&offset=540&ordering=-accession",
"results": [
{
"accession": "UBERON:0003068",
"name": "axial mesoderm",
"definition": "['The axial mesoderm includes the prechordal mesoderm and the chordamesoderm. It gives rise to the prechordal plate and to the notochord.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003064",
"name": "intermediate mesoderm",
"definition": "['The intermediate mesoderm is located between the lateral mesoderm and the paraxial mesoderm. It develops into the kidney and gonads.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003061",
"name": "blood island",
"definition": "['Blood islands are structures in the developing embryo which lead to many different parts of the circulatory system. They primarily derive from plexuses formed from angioblasts. Within them, vacuoles appear through liquefaction of the central part of the syncytium into plasma. The lumen of the blood vessels thus formed is probably intracellular. The flattened cells at the periphery form the endothelium. The nucleated red blood corpuscles develop either from small masses of the original angioblast left attached to the inner wall of the lumen or directly from the flat endothelial cells. In either case the syncytial mass thus formed projects from and is attached to the wall of the vessel. Such a mass is known as a blood island and hemoglobin gradually accumulates within it. Later the cells on the surface round up, giving the mass a mulberry-like appearance. Then the red blood cells break loose and are carried away in the plasma. Such free blood cells continue to divide. Blood islands have been seen in the area vasculosa in the omphalomesenteric vein and arteries, and in the dorsal aorta[WP, unvetted].']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003060",
"name": "pronephric duct",
"definition": "['In mammals, the pronephric duct is the predecessor of the Wolffian duct[WP].', 'The pronephric duct collects the filtrate from the pronephric tubules and opens to the exterior of the pronephric kidney[GOC:mtg_kidney_jan10, PMID:15647339, XAO:0000063, ZFA:0000150]']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003059",
"name": "presomitic mesoderm",
"definition": "['Unsegmented field of paraxial mesoderm present posterior to the most recently formed somite pair, from which somites will form.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003057",
"name": "chordal neural plate",
"definition": "['The portion of neural plate posterior to the mid-hindbrain junction.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003056",
"name": "pre-chordal neural plate",
"definition": "['The portion of neural plate anterior to the mid-hindbrain junction.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003055",
"name": "periderm",
"definition": "['A temporary epithelium that derives from the outer layer of the ectdoerm and is shed once the inner layer differentiates to form a true epidermis.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003052",
"name": "midbrain-hindbrain boundary",
"definition": "['The part of the brain that is the morphological boundary between the midbrain and hindbrain and that is the location of an organizing center which patterns the midbrain and hindbrain primordia of the neural plate.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0003038",
"name": "thoracic spinal cord",
"definition": "['The thoracic nerves are the spinal nerves emerging from the thoracic vertebrae. [WP,unvetted].']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002687",
"name": "area X of ventral lateral nucleus",
"definition": "[]",
"term_type": "cell line"
},
{
"accession": "UBERON:0002616",
"name": "regional part of brain",
"definition": "['Anatomical divisons of the brain according to one or more criteria, e.g. cytoarchitectural, gross anatomy. Parts may be contiguous in 3D or not, e.g., basal ganglia.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002607",
"name": "superior rostral sulcus",
"definition": "[]",
"term_type": "cell line"
},
{
"accession": "UBERON:0002553",
"name": "anatomical cavity",
"definition": "['Anatomical space which contains portions of one or more body substances and is bounded by the internal surface of one maximally connected anatomical structure. Examples: cranial cavity, pharyngeal recess space, nasal cavity, tooth socket, cavity of serous sac, lumen of stomach, lumen of artery, fornix of vagina.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002548",
"name": "larva",
"definition": "['A distinct juvenile form many animals undergo before metamorphosis into adults. Animals with indirect development such as insects, amphibians, or cnidarians typically have a larval phase of their life cycle.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002546",
"name": "cranial placode",
"definition": "['Ectodermal placode that develops in the head into a part of the sensory nervous system. With a few exceptions (lens, adenohypophyseal), cranial placodes are neurogenic.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002544",
"name": "digit",
"definition": "['A subdivision of the autopod that has as part a series of phalanges together with associated vasculature, musculature, integument and nerves. It is continuous with the metapodial subdivision of the autopod, but does not include the metapodials. In species such as humans, fully formed digits are distinct, whereas in other species the digits may be connected by interdigital webbing, or may be completely unseparated (for example, in cetaceans).']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002535",
"name": "gill",
"definition": "['Anatomical surface structure found in many aquatic organisms. It is a respiration organ whose function is the extraction of oxygen from water and the excretion of carbon dioxide. The microscopic structure of a gill is such that it presents a very large surface area to the external environment. Gills usually consist of thin filaments of tissue, branches, or slender tufted processes which have a highly folded surface to increase surface area. A high surface area is crucial to the gas exchange of aquatic organisms as water contains only 1/20 parts dissolved Oxygen compared to air. With the exception of some aquatic insects, the filaments and lamellae (folds) contain blood or coelomic fluid, from which gases are exchanged through the thin walls. Oxygen is carried by the blood to other parts of the body. Carbon dioxide passes from the blood through the thin gill tissue into the water. Gills or gill-like organs, located in different parts of the body, are found in various groups of aquatic animals, including mollusks, crustaceans, insects, fish, and amphibians.', \"this term potentially applicable across multiple metazoa - see also the subclass 'pharyngeal arch derived gill'\"]",
"term_type": "cell line"
},
{
"accession": "UBERON:0002534",
"name": "paired fin",
"definition": "['Fin that is one of a pair located ventrally on the organism.']",
"term_type": "cell line"
},
{
"accession": "UBERON:0002532",
"name": "epiblast (generic)",
"definition": "['In amniote animal embryology, the epiblast is a tissue type derived either from the inner cell mass in mammals or the blastodisc in birds and reptiles. It lies above the hypoblast. In mammalian embryogenesis, the columnar cells of the epiblast are adjacent to the trophoblast, while the cuboidal cells of the hypoblast are closer to the blastocoele. The epiblast, whilst referred to as the primary ectoderm, differentiates to form all three layers of the trilaminar germ disc in a process called gastrulation[WP]. The outer of the two layers of the blastoderm that form during gastrulation, corresponding to primitive ectoderm during gastrulation and to the definitive ectoderm after gastrulation[ZFA].']",
"term_type": "cell line"
}
]
}