about
Cell division cycle 42Uncoupling protein 1 (mitochondrial, proton carrier)Insulin receptorADP-ribosylation factor 6GTP cyclohydrolase 1Glutamate dehydrogenase 1Harvey rat sarcoma virus oncogeneGuanylate cyclase 2cTransglutaminase 2, C polypeptideFK506 binding protein 4SarcalumeninClass II transactivatorGTP cyclohydrolase 1Cell division cycle 42Ras homolog family member BRac family small GTPase 1Leucine-rich repeat kinase 2Ras homolog family member AMitofusin 2Guanylate cyclase 2CEH domain containing 1ADP ribosylation factor like GTPase 16ADP ribosylation factor like GTPase 5CADP ribosylation factor like GTPase 3ADP ribosylation factor like GTPase 4DADP ribosylation factor like GTPase 4CADP ribosylation factor like GTPase 9ADP ribosylation factor like GTPase 10ADP ribosylation factor like GTPase 11ADP ribosylation factor like GTPase 8AADP ribosylation factor like GTPase 5BADP ribosylation factor like GTPase 6ADP ribosylation factor like GTPase 8BADP ribosylation factor like GTPase 15ADP ribosylation factor like GTPase 5AGTP dependent ribosome recycling factor mitochondrial 2Dynamin 1 likeDevelopmentally regulated GTP binding protein 2Ras homolog family member UADP ribosylation factor like GTPase 14
P680
Biochemical characterization of the Ras-related GTPases Rit and RinMolecular cloning, characterization, and tissue-specific expression of human LANCL2, a novel member of the LanC-like protein familySEPTIN6, a human homologue to mouse Septin6, is fused to MLL in infant acute myeloid leukemia with complex chromosomal abnormalities involving 11q23 and Xq24Post-translational modifications of p21rho proteinsCloning and sequence analysis of human pituitary cDNA encoding the novel polypeptide 7B2Structure of the extremely slow GTPase Rab6A in the GTP bound form at 1.8A resolutionCloning of a novel family of mammalian GTP-binding proteins (RagA, RagBs, RagB1) with remote similarity to the Ras-related GTPasesExpression cDNA cloning of a novel oncogene with sequence similarity to regulators of small GTP-binding proteinsConstruction of a transcription map around the gene for ataxia telangiectasia: identification of at least four novel genesSolution structure and dynamics of the small GTPase RalB in its active conformation: significance for effector protein bindingNucleotide binding to nucleoside diphosphate kinases: X-ray structure of human NDPK-A in complex with ADP and comparison to protein kinasesMolecular cloning and characterization of rab27a and rab27b, novel human rab proteins shared by melanocytes and plateletsGGAPs, a new family of bifunctional GTP-binding and GTPase-activating proteinsStructure of the small G protein Rap2 in a non-catalytic complex with GTPStructure of a constitutively activated RhoA mutant (Q63L) at 1.55 A resolutionA Ras-like domain in the light intermediate chain bridges the dynein motor to a cargo-binding region
P921
Q1198053-4A314466-6228-4203-B3E7-7F3072AF3E71Q1198053-ED04D3D1-3DA9-40A0-AA29-A3372B16A6CCQ14860965-28B68F95-A3C8-4380-A276-38F079F70BEDQ14863366-C027D5C2-8D4D-43A6-B9DE-68DA1AED2E9CQ14865056-BE665778-E38A-4DB3-BEE0-B472BB18A12AQ14865056-CCF11C64-E683-4599-B65D-2639E9CBFC6FQ1487359-20BC07F6-42E3-400F-B75A-97D9AAC6FA8DQ1487359-45A5861D-D32E-454C-BD81-98EAD8033A06Q14878318-6A84F334-9510-4449-928B-9BB72EF13DA1Q14884142-41F7DB46-AFCB-451E-8119-9E29F3F8EA17Q14884142-59FD2A9E-D093-466E-9F1A-C7DB8C51823DQ14888940-A5F1B48E-FDF6-4C33-A0AE-C6B2ED985F6DQ14903612-038A4B96-6C40-4084-844B-D59FC902672CQ14907981-EBE7C5C9-368B-407A-A69F-CB4F8BC6221DQ14908071-0F889287-58E3-44B5-AB35-4C567D33AF20Q14914111-AD18043E-DAB6-4431-A6AD-2010DC79EA29Q14916170-978655DA-46AA-431E-AE24-A7C761206766Q15311709-275429C7-B328-40C6-A01D-AEC644613AA3Q15311709-67D7F766-184F-4F85-AF2C-130E89D18F9CQ15311709-8053C245-01EC-4136-9C98-64CE665D53D5Q15322151-6CA40065-8308-45E3-AD13-ED0599698C73Q15322151-B1CE444F-486E-4FD7-B952-90DF5BF4876EQ15325768-027F726A-4575-4A6A-8CA0-9632FFB7B5A2Q15325768-C5122305-E3D4-41FC-B9F1-AF7DF264A128Q15331171-652E7576-3415-43CC-8084-22847B5AA6CFQ15331521-90BAC53C-0597-4F20-BE12-CE8509D53344Q15331521-CACAC5B4-F769-461B-8E0B-18AB3B3F9E05Q15334427-1D74C36E-009E-44EF-84BF-18456765AB9DQ15334427-923E863F-B4BB-413F-9E4C-1CB061D246F1Q1552797-8CAC1FDE-2BF8-4848-9488-58E74A45079BQ21097347-BF238DEE-F24E-4DCC-84D6-59C4AA2DA494Q21097397-F0FDE229-9686-4A93-9040-927CE0789C1FQ21097413-5365B357-B7B5-43E7-8E27-4836B8CC4393Q21097413-5EEFDE8E-E226-4AC8-9197-E397466CDD68Q21097423-96BD6C71-9CAC-4123-AB7A-063986A681F1Q21097423-D3F46D96-135B-41D6-9060-4F7BE833B482Q21097424-7A3222B1-3697-49C2-B0E9-21092DDA89F3Q21097424-AEB10E74-4918-490C-87BA-047BC8819E60Q21097427-483245EA-2B4C-4CE8-94F3-45CD0341068CQ21097427-4A2185DD-C552-40AE-BE21-27081E6623A0
P680
Q22010736-DF247095-16B5-42C3-B3B7-3B6A995E905DQ24292073-C6C2C300-49FC-46A9-8688-9AE8D371B343Q24292219-5093BA2D-1D09-4F73-8C87-A8A2FB46C820Q24293581-28B2B99E-62D2-415E-8918-83317420908BQ24296649-C2114209-245A-4BFB-AA28-BA80A52C3B30Q24298194-C764F98B-729A-4A91-8045-57885A376A95Q24304366-D3B1D9FD-B4D5-4BF0-AF25-8837F5B9AF37Q24308353-0B9864F4-8D46-4621-8117-2D0AEFF18F4FQ24316396-D6ECFBCD-8367-4B6C-9D19-837264BDBBEEQ24320345-055A9146-B47E-4840-A3B1-1C501856E3AFQ24322613-D431FA52-80C4-42EC-85E9-3C6AA989546CQ24336677-D277E9BA-9F26-4C83-84B2-8C755AD6F4D4Q24551119-120880B4-40CA-4FE9-86B9-0A28F074284EQ27620631-80AB658A-5767-4367-AD35-DAE711789F27Q27641359-870E2D61-0FF8-456B-B1AD-2FF7D057FD97Q28118831-31282D42-5973-42C3-896F-CFBC7C6C7CA7
P921
description
Interacting selectively and non-covalently with GTP, guanosine triphosphate.
@en
biologisch proces
@nl
name
GTP binding
@en
קשירת GTP
@he
type
label
GTP binding
@en
קשירת GTP
@he
altLabel
GO:0005525
@en
prefLabel
GTP binding
@en
קשירת GTP
@he
P279
P279
P2888
P686
GO:0005525