about
Nuclear receptor subfamily 4 group A member 2Sonic hedgehogThyroid stimulating hormone receptorPaired-like homeobox 2bLIM homeobox transcription factor 1 betaNuclear receptor subfamily 4, group A, member 2Rac family small GTPase 1LIM homeobox transcription factor 1 alphaForkhead box A1Forkhead box A2Nuclear receptor related 1DMRT like family A2Engrailed homeobox 1Paired like homeobox 2AR-spondin 2Orthodenticle homeobox 2Wnt family member 1Wnt family member 5ALDL receptor related protein 6Mesencephalic astrocyte derived neurotrophic factorPaired like homeodomain 3Vascular endothelial growth factor DFibroblast growth factor 8Wingless-type MMTV integration site family, member 1Wingless-type MMTV integration site family, member 5ACerebral dopamine neurotrophic factorLow density lipoprotein receptor-related protein 6Mesencephalic astrocyte-derived neurotrophic factor5-hydroxytryptamine (serotonin) receptor 7Doublesex and mab-3 related transcription factor like family A2Engrailed 1Engrailed 2Chemokine (C-X-C motif) ligand 12Hypoxia inducible factor 1, alpha subunitForkhead box A2Paired box 5Homeobox protein OTX2Fibroblast growth factor 8Wingless-type MMTV integration site family, member 3ALIM homeobox transcription factor 1 alpha
P682
Forskolin cooperating with growth factor on generation of dopaminergic neurons from human fetal mesencephalic neural progenitor cellsEffects of transcription factors Phox2 on expression of norepinephrine transporter and dopamine beta-hydroxylase in SK-N-BE(2)C cellsWnt1-lmx1a forms a novel autoregulatory loop and controls midbrain dopaminergic differentiation synergistically with the SHH-FoxA2 pathway
P921
Q11694893-D7D1B88E-FFE7-4716-B716-AD49D588DD4AQ11694893-F398A1C5-B046-4BD2-8666-91E04D8B2792Q14860215-91204B17-7267-487E-9CDD-D41B056E7C36Q14904943-293F7ABB-F100-446E-8F65-759C872BB121Q14905597-B40114DE-C1C4-4AE0-95C2-C4B107710DD0Q15311791-124AA7CF-E026-4A7C-AE6E-D67560CFF196Q15312281-0943F4E0-4404-4671-91F8-E8BC9499BE0AQ15312281-14C153E1-FA17-4117-9222-468952900C20Q15325768-3D1A95D9-660E-422E-B7E8-AA6DE9A896CAQ21106233-613037E5-EC2D-4BED-8A57-0DE3A46291FAQ21107407-0A26EEC4-D71D-430B-A3EA-9441670050DDQ21107432-06DFC8F3-4C68-43BD-8EB6-8366FC10ADD5Q21114041-FCEDE0D4-B0DE-4645-A716-87319174C560Q21117513-38CB4687-38A8-452C-8E05-EB62F0A5BD63Q21118310-B1E503EC-54A3-4318-B037-443E7F55A45CQ21119716-098B3D9D-82D8-413D-9103-E402E29E5927Q21120717-D07C5F48-6D56-4CEA-BA8F-714BC4EBC669Q21122438-BD376E22-DFAE-4BB1-AAED-CE89263675EFQ21123961-B86B002E-61F0-477C-84BE-12726545710DQ21123973-EB79BD18-61B5-4342-970C-CAD1EA0827D4Q21132095-3266F2A4-7570-4BC7-B2BF-67DC8E09C791Q21132895-E22ED758-EBA0-440F-ADE2-52CA48373A51Q21134373-FE65BCD0-0BC5-44FA-88DD-0E661E2CEE74Q21136433-A7245FB8-A6C2-47D0-B79E-70A370FE1A7BQ21157895-31EA241A-1A87-48A6-A593-08302438E343Q21494660-A978F684-6FF9-4A58-9DCB-46B3A9F4490EQ21494665-8E15BDF0-FB17-4B84-8612-43A10F7F8878Q21495054-0576877B-B5BD-4443-800F-2E5706B0848EQ21495922-3BD858E4-30AB-4F58-9A60-3DFF3B740078Q21495970-4CCD14D7-4C22-44C4-9CEE-F4ADF3629BE0Q21497939-B6FE66F5-3762-4970-854E-66890233B224Q21498306-C2C1E8B6-F054-4BD1-8439-253060DE7D21Q21498562-64DC43D8-E1B6-4BBF-BEB6-614744A7EB0EQ21498563-9F3D4D34-5509-46C2-BC53-93EF69CECF44Q21980176-E3F4ED38-4148-415C-8457-AE81DCF6BF8AQ21981069-47AAA550-F1AA-4DC4-BABE-964B3095190FQ21983973-7D8D2482-40AC-4280-91FE-D05AE65A0BDDQ21984799-0F30ACB7-273E-4734-AE13-2D6278899595Q21985186-6D61BB91-DD3C-4F20-BB11-4ECA2519D538Q21985352-C0DD1F48-88A4-4952-93AF-8B86ECBCA04D
P682
description
The process in which a neurobl ...... neuron that secretes dopamine.
@en
biologisch proces
@nl
name
dopaminergic neuron differentiation
@en
type
label
dopaminergic neuron differentiation
@en
altLabel
GO:0071542
@en
prefLabel
dopaminergic neuron differentiation
@en
P2888
P686
GO:0071542