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{
"count": 43797,
"next": "https://cinder.proteo.info/api/ms_vocab/?format=api&limit=20&offset=40900&ordering=accession",
"previous": "https://cinder.proteo.info/api/ms_vocab/?format=api&limit=20&offset=40860&ordering=accession",
"results": [
{
"accession": "GO:0000278",
"name": "mitotic cell cycle",
"definition": "['Progression through the phases of the mitotic cell cycle, the most common eukaryotic cell cycle, which canonically comprises four successive phases called G1, S, G2, and M and includes replication of the genome and the subsequent segregation of chromosomes into daughter cells. In some variant cell cycles nuclear replication or nuclear division may not be followed by cell division, or G1 and G2 phases may be absent.', \"Note that this term should not be confused with 'GO:0140014 ; mitotic nuclear division'. 'GO:0000278 ; mitotic cell cycle represents the entire mitotic cell cycle, while 'GO:0140014 ; mitotic nuclear division' specifically represents the actual nuclear division step of the mitotic cell cycle.\"]",
"term_type": "cell line"
},
{
"accession": "GO:0000280",
"name": "nuclear division",
"definition": "['The division of a cell nucleus into two nuclei, with DNA and other nuclear contents distributed between the daughter nuclei.']",
"term_type": "cell line"
},
{
"accession": "GO:0000323",
"name": "lytic vacuole",
"definition": "['A vacuole that is maintained at an acidic pH and which contains degradative enzymes, including a wide variety of acid hydrolases.']",
"term_type": "cell line"
},
{
"accession": "GO:0000785",
"name": "chromatin",
"definition": "['The ordered and organized complex of DNA, protein, and sometimes RNA, that forms the chromosome.', 'Chromosomes include parts that are not part of the chromatin. Examples include the kinetochore.']",
"term_type": "cell line"
},
{
"accession": "GO:0000791",
"name": "euchromatin",
"definition": "['A dispersed and relatively uncompacted form of chromatin that is in a transcription-competent conformation.']",
"term_type": "cell line"
},
{
"accession": "GO:0000792",
"name": "heterochromatin",
"definition": "['A compact and highly condensed form of chromatin that is refractory to transcription.']",
"term_type": "cell line"
},
{
"accession": "GO:0001505",
"name": "regulation of neurotransmitter levels",
"definition": "['Any process that modulates levels of neurotransmitter.']",
"term_type": "cell line"
},
{
"accession": "GO:0001508",
"name": "action potential",
"definition": "['A process in which membrane potential cycles through a depolarizing spike, triggered in response to depolarization above some threshold, followed by repolarization. This cycle is driven by the flow of ions through various voltage gated channels with different thresholds and ion specificities.', 'Action potentials typically propagate across excitable membranes. This class covers both action potentials that propagate and those that fail to do so.']",
"term_type": "cell line"
},
{
"accession": "GO:0001525",
"name": "angiogenesis",
"definition": "['Blood vessel formation when new vessels emerge from the proliferation of pre-existing blood vessels.']",
"term_type": "cell line"
},
{
"accession": "GO:0001539",
"name": "cilium or flagellum-dependent cell motility",
"definition": "['Cell motility due to movement of eukaryotic cilia or bacterial-type flagella or archaeal-type flagella.', \"Note that we deem eukaryotic cilia and microtubule-based flagella to be equivalent, while the bacterial- and archaeal-type flagella have a different structure. The former are microtubule-based structures that lash back and forth and are present only in eukaryotes, while the latter achieve motility by rotation. Bacterial- and archaeal-type flagella are superficially similar but have a different molecular composition and fine structure. These three structures never co-exist in the same organism. Therefore, GO:0001539 'cilium or flagellum-dependent cell motility' is in the subset of terms that should not be used for direct gene product annotation. Instead, select a child term. Direct annotations to GO:0001539 'cilium or flagellum-dependent cell motility' may be amended during annotation QC.\"]",
"term_type": "cell line"
},
{
"accession": "GO:0001568",
"name": "blood vessel development",
"definition": "['The process whose specific outcome is the progression of a blood vessel over time, from its formation to the mature structure. The blood vessel is the vasculature carrying blood.']",
"term_type": "cell line"
},
{
"accession": "GO:0001578",
"name": "microtubule bundle formation",
"definition": "['A process that results in a parallel arrangement of microtubules.']",
"term_type": "cell line"
},
{
"accession": "GO:0001667",
"name": "ameboidal-type cell migration",
"definition": "['Cell migration that is accomplished by extension and retraction of a pseudopodium.', 'Note that this term refers to a mode of migration rather than to any particular cell type.']",
"term_type": "cell line"
},
{
"accession": "GO:0001669",
"name": "acrosomal vesicle",
"definition": "['A structure in the head of a spermatozoon that contains acid hydrolases, and is concerned with the breakdown of the outer membrane of the ovum during fertilization. It lies just beneath the plasma membrane and is derived from the lysosome.']",
"term_type": "cell line"
},
{
"accession": "GO:0001675",
"name": "acrosome assembly",
"definition": "['The formation of the acrosome from the spermatid Golgi.']",
"term_type": "cell line"
},
{
"accession": "GO:0001677",
"name": "formation of translation initiation ternary complex",
"definition": "['Formation of a complex between aminoacylated initiator methionine tRNA, GTP, and initiation factor 2 (either eIF2 in eukaryotes, or IF2 in prokaryotes). In prokaryotes, fMet-tRNA (initiator) is used rather than Met-tRNA (initiator).']",
"term_type": "cell line"
},
{
"accession": "GO:0001696",
"name": "gastric acid secretion",
"definition": "['The regulated release of gastric acid (hydrochloric acid) by parietal or oxyntic cells during digestion.']",
"term_type": "cell line"
},
{
"accession": "GO:0001704",
"name": "formation of primary germ layer",
"definition": "['The formation of the ectoderm, mesoderm and endoderm during gastrulation.']",
"term_type": "cell line"
},
{
"accession": "GO:0001705",
"name": "ectoderm formation",
"definition": "['The formation of ectoderm during gastrulation.']",
"term_type": "cell line"
},
{
"accession": "GO:0001706",
"name": "endoderm formation",
"definition": "['The formation of the endoderm during gastrulation.']",
"term_type": "cell line"
}
]
}