About: Neuropilin

Property	Value
dbo:abstract	Neuropilin je gykoproteinový transmemrbránový receptor (zkr. NRP) v neuronech , prevážně fungující jako koreceptor se semaforíny. NRP-1 NRP-2 jsou specifické receptory pro třídu-3 semaforínů zodpovědné za vedení axonu během vývoje nervového systému u obratlovců. Mají malé cytoplazmatické domény, a proto se spoléhají na jiné molekuly (obvykle plexiny) při přenosu signálu přes buněčnou membránu, obecně fungují jako dimery s různou afinitou pro různé molekuly. Například, NPR-1 homodimery mají vysokou afinitu pro Sema3A, zatímco SPR-2 homodimery mají vysokou afinitu pro Sema3F. Další ligand pro neuropiliny je VEGF, růstový faktor podílející se na regulaci angiogeneze. (cs) Neuropilin is a protein receptor active in neurons. There are two forms of Neuropilins, NRP-1 and NRP-2. Neuropilins are transmembrane glycoproteins, first documented to regulate neurogenesis and angiogenesis by complexing with Plexin receptors/class-3 semaphorin ligands and Vascular Endothelial Growth Factor (VEGF) receptors/VEGF ligands, respectively. Neuropilins predominantly act as co-receptors as they have a very small cytoplasmic domain and thus rely upon other cell surface receptors to transduce their signals across a cell membrane. Recent studies have shown that Neuropilins are multifunctional and can partner with a wide variety of transmembrane receptors. Neuropilins are therefore associated with numerous signalling pathways including those activated by Epidermal Growth Factor (EGF), Fibroblast Growth Factor (FGF), Hepatocyte Growth Factor (HGF), Insulin-like Growth Factor (IGF), Platelet Derived Growth Factor (PDGF) and Transforming Growth Factor beta (TGFβ). Although Neuropilins are commonly found at the cell surface, they have also been reported within the mitochondria and nucleus. Both Neuropilin family members can also be found in soluble forms created by alternative splicing or by ectodomain shedding from the cell surface. The pleiotropic nature of the NRP receptors results in their involvement in cellular processes, such as axon guidance and angiogenesis, the immune response and remyelination. Therefore, dysregulation of NRP activity has been implicated in many pathological conditions, including many types of cancer and cardiovascular disease. (en) Нейропилины — трансмембранные рецепторы, которые играют важную роль при нейрональном развитии, регулируя рост аксонов, а также при VEGF-опосредованном ангиогенезе. У человека описано два нейропилина, нейропилин 1 и нейропилин 2, несколько различающихся по характеристикам связывания лигандов и по паттерну экспрессии. Рецепторы могут объединяться в гетеро- и гомодимеры. Нейропилины связываются с секретируемыми семафоринами 3 класса. Цитоплазматический домен нейропилинов крайне мал и поэтому во внутриклеточной сигнальной активности им помогают плексины. Гомодимеры NRP-1 известны своей аффинностью к семафорину , NRP-2 — к . (ru)
dbo:arm	p q
dbo:band	12 34
dbo:chromosome	2 10
dbo:entrezgene	8828 8829
dbo:hgncid	8005 8004
dbo:omim	602069 (xsd:integer) 602070 (xsd:integer)
dbo:pdb	3I97
dbo:refseq	NM_001024628 NM_201279
dbo:symbol	NRP NRP1 NRP2
dbo:thumbnail	wiki-commons:Special:FilePath/Neuropilin.png?width=300
dbo:uniprot	O14786 O60462
dbo:wikiPageID	7330822 (xsd:integer)
dbo:wikiPageLength	11159 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1116901608 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Cancer dbr:Epidermal_growth_factor dbc:Transmembrane_receptors dbr:Beta_sheet dbr:Cytoplasm dbr:Insulin-like_growth_factor dbr:Neuron dbr:Plexin dbr:Vascular_endothelial_growth_factor dbr:Leukemia dbr:Lymphoma dbr:MAM_domain dbr:Receptor_antagonist dbr:CUB_domain dbr:Ectodomain_shedding dbr:Alpha_helix dbr:Alternative_splicing dbr:Angiogenesis dbr:Cardiovascular_disease dbr:Cell_adhesion dbr:Cell_membrane dbr:Cell_migration dbr:Discoidin_domain dbr:Glycoprotein dbr:Protein dbr:Receptor_(biochemistry) dbc:Single-pass_transmembrane_proteins dbr:Hepatocyte_growth_factor dbr:Remyelination dbr:Axon_guidance dbr:C-terminus dbr:Fibroblast_growth_factor dbr:X-ray_crystallography dbr:Neurogenesis dbr:Neuropilin_1 dbr:Immune_system dbr:Semaphorin dbr:Platelet-derived_growth_factor dbr:Pleiotropy dbr:N-terminus dbr:NRP2 dbr:Transforming_growth_factor_beta
dbp:arm	p (en) q (en)
dbp:band	12 (xsd:integer) 34 (xsd:integer)
dbp:caption	Crystallographic structure of the dimeric B1 domain of human neuropilin 1. (en)
dbp:chromosome	2 (xsd:integer) 10 (xsd:integer)
dbp:entrezgene	8828 (xsd:integer) 8829 (xsd:integer)
dbp:hgncid	8004 (xsd:integer) 8005 (xsd:integer)
dbp:interpro	IPR014648 (en)
dbp:membranomeSuperfamily	16 (xsd:integer)
dbp:name	dbr:Neuropilin_1 dbr:NRP2 Neuropilin (en)
dbp:omim	602069 (xsd:integer) 602070 (xsd:integer)
dbp:pdb	3 (xsd:integer)
dbp:refseq	NM_001024628 (en) NM_201279 (en)
dbp:symbol	dbr:Neuropilin_1 dbr:NRP2 NRP (en)
dbp:uniprot	O14786 (en) O60462 (en)
dbp:wikiPageUsesTemplate	dbt:Infobox_protein_family dbt:MeshName dbt:Reflist dbt:Infobox_protein dbt:Clusters_of_differentiation dbt:Transmembrane_receptors
dcterms:subject	dbc:Transmembrane_receptors dbc:Single-pass_transmembrane_proteins
gold:hypernym	dbr:Receptor
rdf:type	owl:Thing dbo:Biomolecule wikidata:Q206229 wikidata:Q8054 yago:WikicatTransmembraneReceptors yago:BodyPart105220461 yago:Part109385911 yago:PhysicalEntity100001930 yago:Receptor105608868 dbo:Protein yago:Structure105225602 yago:Thing100002452 umbel-rc:ProteinMolecule
rdfs:comment	Neuropilin je gykoproteinový transmemrbránový receptor (zkr. NRP) v neuronech , prevážně fungující jako koreceptor se semaforíny. NRP-1 NRP-2 jsou specifické receptory pro třídu-3 semaforínů zodpovědné za vedení axonu během vývoje nervového systému u obratlovců. Mají malé cytoplazmatické domény, a proto se spoléhají na jiné molekuly (obvykle plexiny) při přenosu signálu přes buněčnou membránu, obecně fungují jako dimery s různou afinitou pro různé molekuly. Například, NPR-1 homodimery mají vysokou afinitu pro Sema3A, zatímco SPR-2 homodimery mají vysokou afinitu pro Sema3F. Další ligand pro neuropiliny je VEGF, růstový faktor podílející se na regulaci angiogeneze. (cs) Нейропилины — трансмембранные рецепторы, которые играют важную роль при нейрональном развитии, регулируя рост аксонов, а также при VEGF-опосредованном ангиогенезе. У человека описано два нейропилина, нейропилин 1 и нейропилин 2, несколько различающихся по характеристикам связывания лигандов и по паттерну экспрессии. Рецепторы могут объединяться в гетеро- и гомодимеры. Нейропилины связываются с секретируемыми семафоринами 3 класса. Цитоплазматический домен нейропилинов крайне мал и поэтому во внутриклеточной сигнальной активности им помогают плексины. Гомодимеры NRP-1 известны своей аффинностью к семафорину , NRP-2 — к . (ru) Neuropilin is a protein receptor active in neurons. There are two forms of Neuropilins, NRP-1 and NRP-2. Neuropilins are transmembrane glycoproteins, first documented to regulate neurogenesis and angiogenesis by complexing with Plexin receptors/class-3 semaphorin ligands and Vascular Endothelial Growth Factor (VEGF) receptors/VEGF ligands, respectively. Neuropilins predominantly act as co-receptors as they have a very small cytoplasmic domain and thus rely upon other cell surface receptors to transduce their signals across a cell membrane. Recent studies have shown that Neuropilins are multifunctional and can partner with a wide variety of transmembrane receptors. Neuropilins are therefore associated with numerous signalling pathways including those activated by Epidermal Growth Factor (EG (en)
rdfs:label	Neuropilin (cs) Neuropilin (en) Нейропилины (ru)
owl:sameAs	freebase:Neuropilin wikidata:Neuropilin dbpedia-cs:Neuropilin dbpedia-gl:Neuropilin dbpedia-ru:Neuropilin dbpedia-sh:Neuropilin dbpedia-sr:Neuropilin https://global.dbpedia.org/id/FFwb
prov:wasDerivedFrom	wikipedia-en:Neuropilin?oldid=1116901608&ns=0
foaf:depiction	wiki-commons:Special:FilePath/Neuropilin.png
foaf:isPrimaryTopicOf	wikipedia-en:Neuropilin
foaf:name	neuropilin 1 (en) neuropilin 2 (en)
is dbo:wikiPageDisambiguates of	dbr:NRP
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