about
Integrin linked kinaseBrain derived neurotrophic factorBrain derived neurotrophic factorDystrophin, muscular dystrophyNerve growth factorATPase, Cu++ transporting, alpha polypeptideBone morphogenetic protein 7Neurotrophin 3CortactinNeurotrophin 5Integrin alpha 1LIF receptor alphaDystrobrevin binding protein 1Rac family small GTPase 1Gap junction protein, alpha 1Leucine-rich repeat kinase 2Ras homolog family member ABone morphogenetic protein 7 (Osteogenic protein 1), isoform CRA_bContactin associated protein 1Contactin associated protein 2Motor neuron and pancreas homeobox 1Neuronal tyrosine-phosphorylated phosphoinositide-3-kinase adaptor 2Ankyrin repeat domain 27STE20 related adaptor alphaSTE20 related adaptor betaSerine/threonine kinase 26DAB2 interacting proteinTRAF2 and NCK interacting kinaseGlycoprotein M6ASerine/threonine kinase 25Erythrocyte membrane protein band 4.1 like 3BR serine/threonine kinase 2BR serine/threonine kinase 1Growth arrest specific 7Drebrin likeDicer 1, ribonuclease IIISLIT-ROBO Rho GTPase activating protein 2Ubiquitin BDoublecortin like kinase 1Kirre like nephrin family adhesion molecule 3
P682
A novel role for the choroid plexus in BMP-mediated inhibition of differentiation of cerebellar neural progenitorsALS2/Alsin regulates Rac-PAK signaling and neurite outgrowthThe familial Parkinsonism gene LRRK2 regulates neurite process morphologyContactin-Associated Protein 1 (CNTNAP1) Mutations Induce Characteristic Lesions of the Paranodal Region.Mutations in CNTNAP1 and ADCY6 are responsible for severe arthrogryposis multiplex congenita with axoglial defects.
P921
Q11913806-7F9356A9-64ED-4FE2-8656-86109FE31F17Q123045-8FB557E4-3913-4AF5-8312-46030B075375Q14863333-E1D00F81-2E7E-4DA9-A4D5-27BD4C244216Q14864296-A1186B4C-073E-4747-9B96-D675F802ABA1Q14873936-37603FB7-AA33-4AA1-ADCE-90C5DFAA531FQ14873936-E3DED51B-65FF-4C29-ACF3-78D9B9DEB20DQ14884615-E8CE5598-EBF5-4B44-B901-EF85261FF68DQ14903113-925EFB9B-D84F-4FA7-A82D-24DF23481AA4Q14904572-23AA9BA7-F9CE-4949-A981-5FBD8583FF5AQ14906157-512ACA04-A136-4AAC-B7FD-BB1AF9B4002EQ14908136-1A4F554B-BA2B-432A-8165-44E206216120Q14912127-EE77A9D6-E31A-4131-B172-0813085EE689Q14914456-3DE01394-E306-46B1-8DD5-9F5B38633029Q15313794-B73AA630-934E-417B-B416-B261A5C00F8CQ15325768-049E2DF4-ACE6-4001-90B8-AB361D574E43Q15325768-1FB70FE1-DAB1-4710-8503-33075CFA195AQ15330604-49F980F3-A5B7-49E4-B550-935EB364EFFAQ15331171-D9749BF2-AE01-4C2A-850D-8D3E2182F382Q15331521-E1DF8CAF-301A-4D2C-9D58-EFF5D748D47CQ21096346-DD8B0E67-E9E5-4798-9ABC-57E8A5CA71F0Q21102436-84BBFAF4-57DF-4081-93A0-F68B6DD2A8F8Q21102466-693817E9-AE7F-424A-B85C-85AE9B1FFA11Q21104686-F8D99BDB-47E0-459E-934B-B079F07DCB48Q21104999-D403D4A5-20E3-43F6-9542-18F4236AAB5BQ21105206-4ACAD4E2-AAA0-4F72-A006-719C46CD73A9Q21105206-C280AD82-3F58-45F6-8618-4B69ECE55AB8Q21105538-1E846813-481A-4CC9-B616-83B90EB92EF7Q21105585-91887B8A-6DCB-4A6E-A3BB-54BB93EFDBB4Q21105594-CCB7C2CB-A734-4E69-B3A8-B66B6F6111C2Q21105736-C9ED3CD3-4795-4E6A-AE38-BADF8CF987B4Q21108517-B032E70A-D890-4ABB-97BA-5BD808233527Q21108676-060F8200-C821-4E0E-A155-9B3E6B50D291Q21109159-FCB55D46-5BBA-4F82-A9C5-A9634B3856D5Q21110071-747184FC-D21B-4D31-B283-8A78208E99EFQ21110488-0A3C21E0-C319-4364-B43E-0A533E82E5F5Q21110489-4EB6A693-2C94-49A9-A2AA-550444D621D2Q21110893-A00C250E-4C8B-42C5-9A05-B8430E9B3742Q21111138-78AED964-EA30-41E6-B71A-1B12C45E2BB8Q21111297-F6531B2D-5BBB-4D53-BBDD-862B6A7A4101Q21111371-2772B5E3-5180-41CD-8FDA-EE8F85622300
P682
description
The process in which the anato ...... l, such as axons or dendrites.
@en
biologisch proces
@nl
name
neuron projection morphogenesis
@en
type
label
neuron projection morphogenesis
@en
altLabel
GO:0048812
@en
prefLabel
neuron projection morphogenesis
@en
P2888
P686
GO:0048812