Binding of Rac1, Rnd1, and RhoD to a Novel Rho GTPase Interaction Motif Destabilizes Dimerization of the Plexin-B1 Effector Domain
about
Structural basis for activation and non-canonical catalysis of the Rap GTPase activating protein domain of plexinSemaphorin 5A and plexin-B3 inhibit human glioma cell motility through RhoGDIalpha-mediated inactivation of Rac1 GTPaseStructural basis of semaphorin-plexin recognition and viral mimicry from Sema7A and A39R complexes with PlexinC1Structural basis of semaphorin-plexin signallingRhoD regulates cytoskeletal dynamics via the actin nucleation-promoting factor WASp homologue associated with actin Golgi membranes and microtubulesEffect of cancer-associated mutations in the PlexinB1 geneStructure and function of the intracellular region of the plexin-b1 transmembrane receptorRhoD binds the Rab5 effector Rabankyrin-5 and has a role in trafficking of the platelet-derived growth factor receptorUnderstanding cell signalling systems: paving the way for new therapiesModeling transmembrane domain dimers/trimers of plexin receptors: implications for mechanisms of signal transmission across the membraneInsights into Oncogenic Mutations of Plexin-B1 Based on the Solution Structure of the Rho GTPase Binding DomainCrystal structure of the plexin A3 intracellular region reveals an autoinhibited conformation through active site sequestrationA Dual Binding Mode for RhoGTPases in Plexin SignallingPlexins Are GTPase-Activating Proteins for Rap and Are Activated by Induced DimerizationTransmembrane recognition of the semaphorin co-receptors neuropilin 1 and plexin A1: coarse-grained simulationsSemaphorin 4D signaling requires the recruitment of phospholipase C gamma into the plexin-B1 receptor complex.Structure analyses reveal a regulated oligomerization mechanism of the PlexinD1/GIPC/myosin VI complexA collaborative filtering approach for protein-protein docking scoring functions.Plexin-B1 activates NF-κB and IL-8 to promote a pro-angiogenic response in endothelial cellsA generalized approach to sampling backbone conformations with RosettaDock for CAPRI rounds 13-19Diverse functions for the semaphorin receptor PlexinD1 in development and disease.A cytosolic juxtamembrane interface modulates plexin A3 oligomerization and signal transduction.Structural basis of Rnd1 binding to plexin Rho GTPase binding domains (RBDs)The Rho GTPase Rnd1 suppresses mammary tumorigenesis and EMT by restraining Ras-MAPK signalling.Structural mechanisms of plexin signalingProneural transcription factors regulate different steps of cortical neuron migration through Rnd-mediated inhibition of RhoA signalingThe GTPase-deficient Rnd proteins are stabilized by their effectors.Class A Plexins Are Organized as Preformed Inactive Dimers on the Cell SurfaceCompensatory and long-range changes in picosecond-nanosecond main-chain dynamics upon complex formation: 15N relaxation analysis of the free and bound states of the ubiquitin-like domain of human plexin-B1 and the small GTPase Rac1.Tyrosine phosphorylation in semaphorin signalling: shifting into overdrive.Plxnd1 expression in thymocytes regulates their intrathymic migration while that in thymic endothelium impacts medullary topology.Refinement of the primary hydration shell model for molecular dynamics simulations of large proteins.Binding the atypical RA domain of Ste50p to the unfolded Opy2p cytoplasmic tail is essential for the high-osmolarity glycerol pathway.Transmembrane semaphorins: Multimodal signaling cues in development and cancer.Plexin structures are coming: opportunities for multilevel investigations of semaphorin guidance receptors, their cell signaling mechanisms, and functions.Structures of Ras superfamily effector complexes: What have we learnt in two decades?Optogenetic activation of Plexin-B1 reveals contact repulsion between osteoclasts and osteoblasts.Molecular Dynamics Simulations Reveal Isoform Specific Contact Dynamics between the Plexin Rho GTPase Binding Domain (RBD) and Small Rho GTPases Rac1 and Rnd1.Backbone assignment and secondary structure of Rnd1, an unusual Rho family small GTPase.Selection of near-native poses in CAPRI rounds 13-19.
P2860
Q21128780-E50F0336-A1D0-4613-AB1F-59062BC8B137Q24294818-56A7DD85-2566-4968-B4EC-D474D81D1BC1Q24296802-F976F249-9CAC-4C4E-880B-59734DBDB1E7Q24301370-2172663E-E4B7-4D95-BE9B-D037A68D1C0BQ24301477-14EC5AEC-F678-41F7-9DE9-D4EDCB42A248Q24306887-7C902BBD-87F5-4C2C-8C8A-CBBBC04C91B2Q24309186-70770AE9-C872-4085-810C-EF55ED3CC815Q24337827-A3BB3A8B-2B88-4211-9FD5-1E8CABA1E29CQ26825018-DDE1770D-CE9F-4F4C-BAEF-E4797A392AFDQ27310828-87D49A89-D87F-4477-BC29-F1D75DB4F62DQ27649860-33DBB476-3720-40A6-85DE-B34F008BEBADQ27657229-94E8EAA0-FCD5-4908-B549-8AEDF83C6EC3Q27673776-D51744C6-9525-4B84-8060-DE17E644A396Q27676779-B123DE86-518A-4BB2-8D61-A40DBC580709Q28539091-22B8192C-ED4A-4706-97ED-9EB94BAF825FQ30157096-F568BA58-48C6-4D2B-9806-48D9995B05CDQ33769778-ED0E7330-5B68-4734-9954-4BD272146EBAQ33883411-19E8F2DA-F5FA-449F-95BE-FE3BC560AB68Q34058331-87E3FAC4-686D-4881-8218-958C4CA5F4E2Q34188720-A867F92F-D2FE-4704-994F-3D63C410F980Q34361068-86A648B1-180E-4726-B278-10C9BE5F82CDQ34856542-7C82F819-A460-4BFA-AAE8-4D29B761AFCBQ35110931-3F0F469E-3E1C-4B92-863A-7D4F6DF6AA2CQ35218537-AC2A6AD8-3961-4FEF-84E9-2BA1A70D5D3CQ35958062-66831B96-63D3-450C-8D8D-AE5794241532Q36060930-C30F8F7E-DC58-4C28-841A-4CFC45995B1AQ36234368-6FF0EDC2-A74D-4415-A6B7-4E3666136DB3Q36275350-4EB197EF-B0B1-49E6-8069-B239B18AEA0CQ37154008-CE2FF09C-1AEC-4406-9F29-C13B3445E3E3Q37228375-111DB193-A5E0-482A-A86C-9C078765627FQ37321840-0A9D20A6-9105-49F7-9823-96AA699CB788Q37384449-9294C0F9-AC97-4FE7-A513-7C91B12AA745Q37475318-C35E292E-4554-4749-ACFF-D48D836C93C9Q37509059-3DB09D58-D0ED-4EB9-A8E1-6054E1D30EEDQ38022543-6F1B1801-0D09-455A-97B7-421371BE58DAQ38399347-0FC87495-C3BF-410F-830E-C0532E03EEFEQ38715903-B631C152-3C94-409A-B2FB-89F9722B6BD9Q39012149-BC797779-960B-41CE-BE7F-169088355B1CQ39614422-0674BCCC-06AD-49D3-831C-B045AC6E9058Q41840576-6B59F891-299E-441C-9224-5AE94778A3D2
P2860
Binding of Rac1, Rnd1, and RhoD to a Novel Rho GTPase Interaction Motif Destabilizes Dimerization of the Plexin-B1 Effector Domain
description
2007 nî lūn-bûn
@nan
2007 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@ast
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@en
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@nl
type
label
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@ast
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@en
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@nl
prefLabel
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@ast
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@en
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@nl
P2093
P2860
P50
P356
P1476
Binding of Rac1, Rnd1, and Rho ...... the Plexin-B1 Effector Domain
@en
P2093
Hee-Won Park
Limin Shen
Preeti Chugha
Rebecca S Alviani
P2860
P304
P356
10.1074/JBC.M703800200
P407
P577
2007-12-21T00:00:00Z