about
Rho associated coiled-coil containing protein kinase 1Neuroepithelial cell transforming 1Chromosome 15 open reading frame 62CDC42 effector protein 2CDC42 effector protein 1CDC42 effector protein 5CDC42 effector protein 4CDC42 effector protein 3Anillin actin binding proteinProtein kinase N1Potassium channel tetramerization domain containing 13Potassium channel tetramerization domain containing 10TNF alpha induced protein 1Protein kinase N3Protein kinase N2Syntaxin binding protein 6Rho associated coiled-coil containing protein kinase 2TRIO and F-actin binding proteinPutative WASP homolog-associated protein with actin, membranes and microtubules-like protein 1WASP homolog associated with actin, golgi membranes and microtubulesExocyst complex component 1RhotekinPredicted gene 14137Exocyst complex component 1Neuroepithelial cell transforming gene 1Tumor necrosis factor, alpha-induced protein 1 (endothelial)Potassium channel tetramerisation domain containing 13Potassium channel tetramerisation domain containing 10WAS protein homolog associated with actin, golgi membranes and microtubulesCDC42 effector protein (Rho GTPase binding) 2CDC42 effector protein (Rho GTPase binding) 1CDC42 effector protein (Rho GTPase binding) 3CDC42 effector protein (Rho GTPase binding) 4CDC42 effector protein (Rho GTPase binding) 5Anillin, actin binding proteinProtein kinase N1Protein kinase N2Protein kinase N3RhotekinRho-associated coiled-coil containing protein kinase 1
P680
The structural basis of Rho effector recognition revealed by the crystal structure of human RhoA complexed with the effector domain of PKN/PRK1The PDZ protein TIP-1 interacts with the Rho effector rhotekin and is involved in Rho signaling to the serum response elementPRK1 is targeted to endosomes by the small GTPase, RhoBRhoB induces apoptosis via direct interaction with TNFAIP1 in HeLa cells
P921
Q21100658-5D3225AB-39A3-4A69-92B1-643ABE5B86A6Q21100658-EB546069-6A1A-458C-B019-73AFD74F28B9Q21101968-080D0688-F6D5-4DA0-A865-A42B20C5CA83Q21102430-7CE1897F-11CA-48BC-BCB1-89BCF4295FA4Q21105464-5ED7DF3C-92C0-49DD-984C-CF3BAD5226CEQ21105464-BDDCAD92-7776-4C40-A705-BBE84A6A955CQ21105465-046FE581-77C2-40EC-884B-5137B6EFE348Q21105466-30B1C359-8F5A-4EE8-B582-3986EC60EDBEQ21105466-9ECDF013-CCA0-4F72-A5B9-402DFEA3E602Q21105469-056C7679-7EF2-407B-AB44-037E7659FAF2Q21105471-7325B99C-5D8E-48ED-A0EC-7DAD06021731Q21111480-6D495F4C-7A7F-4DC0-B463-FBEEDFBEE907Q21112525-8F570B65-4D93-46EA-9F25-75F0D5E4E160Q21112778-5CB8D58A-712F-455D-B791-B1F763791414Q21112778-5E775352-1BA7-4F52-8804-F2C38C45A984Q21112782-24AEADCD-E78A-4E57-A606-FAF3BCB47850Q21116711-5548CA3F-C320-47A2-930B-315D32D94372Q21116711-62F66B4D-7A8F-41FE-B21E-48F3B24B6611Q21122005-B0255CD8-E1DD-4BF5-9EFA-E897CDCF6DF4Q21123216-154A89FE-E817-45D9-9FEC-F484CABAA867Q21124577-8B85DD49-A03C-4E43-AEB2-57935B740641Q21127094-F9D6C7E8-D683-402D-AFDB-2B731DA83D18Q21133619-CC7D6DD2-FF8C-4BDE-B7D4-3B9BD1C014ECQ21136675-2CF11223-B5DD-499F-AB76-0266CD6B0817Q21136684-577687A4-0B7D-4F03-9919-0170EDD09AF5Q21136684-B4C32E74-2591-4E73-B9DC-6C6B1D2A0B78Q21155601-4C2AEB15-C583-4AAB-92A5-92BCA5BE7FD2Q21202257-DBF5F135-AC40-4265-917B-844E6B189AACQ21202257-DE8B8CA9-2507-4E4A-9D13-C77C454425CFQ21416597-481817BD-ADDC-436C-9A56-B949D2A744B0Q21494419-71506E8B-CF44-4D2D-B4F9-E4B6797009A7Q21496098-CD68C57F-EF4B-4FC6-BC08-5DB04D6D8FD9Q21496129-723471F7-59B1-4619-A571-807801D0401EQ21496129-84E8C3A0-D341-45BA-9DB8-AD5C9D088509Q21496135-1ED52891-626F-41C2-BD05-2662DB19488DQ21496135-FE946C2C-DADC-4755-A78B-385F4B1C16A5Q21497035-5C1565C0-47E9-489B-875D-5DA1B6444815Q21980302-72451835-CDD2-487A-AA3A-6E1E753DC515Q21981502-272934DC-2ED1-4434-97BD-2719A7C325A9Q21981504-500E2477-2B35-4A9C-ACAE-4FDF062B0B21
P680
description
Interacting selectively and non-covalently with the GTP-bound form of the Rho protein.
@en
moleculaire functie
@nl
name
GTP-Rho binding
@en
type
label
GTP-Rho binding
@en
prefLabel
GTP-Rho binding
@en
P2888
P686
GO:0017049