Hydrolysis of GTP on rab11 is required for the direct delivery of transferrin from the pericentriolar recycling compartment to the cell surface but not from sorting endosomes.
about
Involvement of microtubular network and its motors in productive endocytic trafficking of mouse polyomavirusApical transport of influenza A virus ribonucleoprotein requires Rab11-positive recycling endosomeRab11b and its effector Rip11 regulate the acidosis-induced traffic of V-ATPase in salivary ductsMyosin VI and its interacting protein LMTK2 regulate tubule formation and transport to the endocytic recycling compartment.BIG2, a guanine nucleotide exchange factor for ADP-ribosylation factors: its localization to recycling endosomes and implication in the endosome integrityA novel AAK1 splice variant functions at multiple steps of the endocytic pathwayStructural basis for Rab11-dependent membrane recruitment of a family of Rab11-interacting protein 3 (FIP3)/Arfophilin-1Rab14 is involved in membrane trafficking between the Golgi complex and endosomesRabenosyn-5 and EHD1 interact and sequentially regulate protein recycling to the plasma membraneEARP is a multisubunit tethering complex involved in endocytic recyclingBREK/LMTK2 is a myosin VI-binding protein involved in endosomal membrane traffickingRab15 effector protein: a novel protein for receptor recycling from the endocytic recycling compartment.Rab11 promotes docking and fusion of multivesicular bodies in a calcium-dependent mannerMARCH-II is a syntaxin-6-binding protein involved in endosomal traffickingThe type Ialpha inositol polyphosphate 4-phosphatase generates and terminates phosphoinositide 3-kinase signals on endosomes and the plasma membraneRab coupling protein is selectively degraded by calpain in a Ca2+-dependent mannerInteractions between EHD proteins and Rab11-FIP2: a role for EHD3 in early endosomal transport.Rab22a regulates the sorting of transferrin to recycling endosomes.Birbeck granules are subdomains of endosomal recycling compartment in human epidermal Langerhans cells, which form where Langerin accumulatesMyosin vb is associated with plasma membrane recycling systemsRab11 is required for trans-golgi network-to-plasma membrane transport and a preferential target for GDP dissociation inhibitorMAL, an integral element of the apical sorting machinery, is an itinerant protein that cycles between the trans-Golgi network and the plasma membraneIdentification of Rab11 as a small GTPase binding protein for the Evi5 oncogeneIdentification of a putative effector protein for rab11 that participates in transferrin recyclingThe Rab6 effector Bicaudal D1 associates with Chlamydia trachomatis inclusions in a biovar-specific mannerA Rab11-containing rapidly recycling compartment in macrophages that promotes phagocytosisRab11 regulates the compartmentalization of early endosomes required for efficient transport from early endosomes to the trans-golgi networkVesicular Trafficking to the Immune Synapse: How to Assemble Receptor-Tailored Pathways from a Basic Building SetThe endocytic recycling compartment maintains cargo segregation acquired upon exit from the sorting endosome.Influenza Virus Induces Cholesterol-Enriched Endocytic Recycling Compartments for Budozone Formation via Cell Cycle-Independent Centrosome MaturationThe fast-recycling receptor Megalin defines the apical recycling pathway of epithelial cells.Trafficking of Sendai virus nucleocapsids is mediated by intracellular vesiclesEndocytic and recycling endosomes modulate cell shape changes and tissue behaviour during morphogenesis in DrosophilaThe structural GDP/GTP cycle of Rab11 reveals a novel interface involved in the dynamics of recycling endosomesStructure of Rab11-FIP3-Rabin8 reveals simultaneous binding of FIP3 and Rabin8 effectors to Rab11Ypt31/32 GTPases and their novel F-box effector protein Rcy1 regulate protein recyclingRegulation of vesicle trafficking in madin-darby canine kidney cells by Rab11a and Rab25Rab GTPases are recruited to chlamydial inclusions in both a species-dependent and species-independent mannerIdentification and characterization of a family of Rab11-interacting proteinsChlamydia pneumoniae inclusion membrane protein Cpn0585 interacts with multiple Rab GTPases
P2860
Q21558490-AB8FA485-EFEF-4057-8EC2-DDEEDDE768A8Q21560807-23CF93B1-8074-4DB5-9F3D-4C9107E976D5Q24296504-A0AD7690-ABB5-483E-ACE7-0D750B93FEF4Q24301155-18F13F12-BEF8-412D-B41E-C06A41EBD47FQ24305048-4F444F61-FA91-4AB2-B366-1F6EB5CCC961Q24305301-00733A62-6266-4218-8A2E-716CC7806D23Q24306419-26D93084-484B-49E3-99A7-0AE7FC48631EQ24314758-BD996779-EDFC-49B7-BD63-2FF45A4085C3Q24316875-343EDB12-17B6-449B-9583-0E04A322DCC4Q24323269-A4B89A1E-D4B1-4ABF-BB94-53F5E06B41F7Q24324187-5164B446-67D2-4354-A0E2-973FA45E48A4Q24337340-D585C8C9-42F0-483D-AFEA-62171D6189C2Q24337536-070ACA72-433B-4163-8BF1-AC5484FA895CQ24521346-03E663CE-4004-41E4-A98E-85F1536DF498Q24523405-2CE8AED6-0047-478A-BB84-A58F5AB828DEQ24534895-DB50845E-3B67-4689-9B08-8EE0961E5202Q24537400-613D8A54-9220-4975-903A-611BEDB082C1Q24548043-ED47D402-1A2F-4402-9AFA-0F25DCAE58F7Q24555038-89868F0B-C818-48CB-ADCD-C7690B8CEB15Q24633656-8ADAA149-5B9B-4980-BAF0-2B69BA22E817Q24657725-E5B71858-51E1-4105-895D-599B729797ABQ24657794-3727FF00-8CA1-4E59-9F79-9AA6658EA2BCQ24670211-B05D3287-C1BE-4DD9-9CCD-ABE120F46326Q24673477-8DD5E6E8-F362-417D-821D-5781DE333167Q24678714-E657219F-59B4-4D47-BEFF-73944A96939CQ24680009-978B8C29-70CA-4BC1-ACF0-CFF27060FA88Q24681074-393F4572-9379-4A3A-8558-C594B7DF25C6Q26766480-5954F923-9C27-4ACC-A690-9BF0367CF77FQ27305230-95573B05-206F-4C84-A810-DA0E3AC0D96DQ27316852-8BC2EEC4-2DBB-4487-A3A5-13B4D05DAC6AQ27316974-7428F300-A1C0-440A-98F8-1FA58A206B43Q27325499-9A312759-FE9E-408A-8D56-8621541D5E03Q27347573-378FBED9-F0D4-48F4-AE4B-C0361C2E7C54Q27642874-982258C0-6277-4A43-BF90-9E7108DEE3E1Q27701769-A1EFDBB2-EF94-4EBA-A5C8-9874C42D2831Q27935934-3DE5CAE2-67C0-4B4D-8C5E-DFA28704E4FBQ28139263-501CEFCB-403C-4C31-BABC-A630F1CCB7D1Q28203990-3A9B68C2-4314-40B5-A776-85F1C1E29884Q28211889-0301033A-97A3-4EF5-BAD3-48610D41C4E6Q28251473-70F89C43-FCCD-4D61-B084-D025A5B4A106
P2860
Hydrolysis of GTP on rab11 is required for the direct delivery of transferrin from the pericentriolar recycling compartment to the cell surface but not from sorting endosomes.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on May 1998
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@en
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@nl
type
label
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@en
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@nl
prefLabel
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@en
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@nl
P2093
P2860
P356
P1476
Hydrolysis of GTP on rab11 is ...... ut not from sorting endosomes.
@en
P2093
P2860
P304
P356
10.1073/PNAS.95.11.6187
P407
P577
1998-05-01T00:00:00Z