Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
about
The Trypanosome Flagellar Pocket Collar and Its Ring Forming Protein-TbBILBO1Form, Fabric, and Function of a Flagellum-Associated Cytoskeletal StructureA MAP6-related protein is present in protozoa and is involved in flagellum motilityA comparative proteomic analysis reveals a new bi-lobe protein required for bi-lobe duplication and cell division in Trypanosoma bruceiA Novel Trypanosoma cruzi Protein Associated to the Flagellar Pocket of Replicative Stages and Involved in Parasite GrowthThe limits on trypanosomatid morphological diversityStructure of the TbBILBO1 protein N-terminal domain from Trypanosoma brucei reveals an essential requirement for a conserved surface patch.The future of ciliary and flagellar membrane research.Three-dimensional cellular architecture of the flagellar pocket and associated cytoskeleton in trypanosomes revealed by electron microscope tomographyMembrane domains and flagellar pocket boundaries are influenced by the cytoskeleton in African trypanosomes.Trypanosoma brucei FKBP12 differentially controls motility and cytokinesis in procyclic and bloodstream forms.Proteomic analysis of intact flagella of procyclic Trypanosoma brucei cells identifies novel flagellar proteins with unique sub-localization and dynamicsMotility and more: the flagellum of Trypanosoma brucei.Determinants of GPI-PLC localisation to the flagellum and access to GPI-anchored substrates in trypanosomesThe endocytic activity of the flagellar pocket in Trypanosoma brucei is regulated by an adjacent phosphatidylinositol phosphate kinase.Basal body movements orchestrate membrane organelle division and cell morphogenesis in Trypanosoma bruceiCiliary diffusion barrier: the gatekeeper for the primary cilium compartment.BILBO1 is a scaffold protein of the flagellar pocket collar in the pathogen Trypanosoma brucei.Replication of the ERES:Golgi junction in bloodstream-form African trypanosomes.25 years of African trypanosome research: From description to molecular dissection and new drug discoveryAssembly and maintenance of the flagellum attachment zone filament in Trypanosoma brucei.Proteomic identification of novel cytoskeletal proteins associated with TbPLK, an essential regulator of cell morphogenesis in Trypanosoma bruceiArchitecture of a Host-Parasite Interface: Complex Targeting Mechanisms Revealed Through Proteomics.A MORN Repeat Protein Facilitates Protein Entry into the Flagellar Pocket of Trypanosoma brucei.Biochemical characterization of the bi-lobe reveals a continuous structural network linking the bi-lobe to other single-copied organelles in Trypanosoma brucei.Novel bilobe components in Trypanosoma brucei identified using proximity-dependent biotinylation.An analogue-sensitive approach identifies basal body rotation and flagellum attachment zone elongation as key functions of PLK in Trypanosoma brucei.Polo-like kinase phosphorylation of bilobe-resident TbCentrin2 facilitates flagellar inheritance in Trypanosoma brucei.Cilium transition zone proteome reveals compartmentalization and differential dynamics of ciliopathy complexes.The Trypanosoma brucei flagellum: moving parasites in new directions.A multigene family encoding surface glycoproteins in Trypanosoma congolense.The ciliary pocket: a once-forgotten membrane domain at the base of cilia.Proteomics and the Trypanosoma brucei cytoskeleton: advances and opportunities.Cytokinesis in trypanosomes.More than meets the eye: understanding Trypanosoma brucei morphology in the tsetse.Flagellar pocket restructuring through the Leishmania life cycle involves a discrete flagellum attachment zone.Assembly mechanism of Trypanosoma brucei BILBO1, a multidomain cytoskeletal protein.Novel Effects of Lapatinib Revealed in the African Trypanosome by Using Hypothesis-Generating Proteomics and Chemical Biology Strategies.Expression, purification and preliminary crystallographic analysis of the N-terminal domain of Trypanosoma brucei BILBO1.AEE788 Inhibits Basal Body Assembly and Blocks DNA Replication in the African Trypanosome.
P2860
Q26767353-2B7BB302-9B3A-4F28-ABB0-90B3BCD2C340Q26779123-46428975-9CED-4781-86E3-A8F4CC2D9810Q27309017-C36B72CE-59EF-4456-AA03-E8B9F2415494Q27333138-3D425ED0-B19B-474B-8B22-FAB55F7F3C59Q28548459-54953B84-41BA-4252-BB9F-5B568AEA56E4Q28661525-892B8A8D-71AA-445E-A202-49D13D5C4391Q30357132-EAEB7230-76DD-405E-910C-403873FD687AQ30424945-D28F9D9F-7350-4E72-A603-6830177B1B4AQ30488995-413AD1D1-D5F9-4208-BA9B-DFDC296FFFCFQ30490676-BE17A080-17EF-4B95-A0F0-FD6CA4644498Q30535612-3C0952BF-9B8E-4180-A94F-5A0C6E0A770CQ30582839-67CDB2E3-421C-46E4-9C93-C15BE1586C8CQ30611967-7CD81619-0A9B-4A76-9F9F-2A4511B62387Q31129811-27BDEE63-E0E1-4FB8-98EA-38CB5B2F3FECQ33613389-3D292662-CAE0-49CC-AB05-0E6AF089C417Q33648673-BFA38459-4E29-495E-B22B-3542B5965FB9Q35126782-3E738E36-F518-422E-B724-8E41C57C6832Q35590151-7F25528F-9A26-4BAE-B2E2-CF5F232A7076Q35612980-CA3C71B7-03C2-4EC0-98DF-7AC3121550D0Q35875131-AEC18757-EDC3-45A3-9DB1-AFF3AA04A489Q35913987-BE3F7B58-FBD2-47D9-8998-7682F23BE645Q36000726-DE0626B3-1EEB-4834-B797-D738498280CEQ36103884-51D10407-F00F-43F3-ABF1-427DB9B0E4C3Q36208842-B559AE97-5BA5-441A-89BB-9301755C656AQ36579589-BC7A7AE5-C92E-40FA-9459-747ECFF2D4CFQ36606839-AE897FA9-808C-4635-9E30-BE82736656A2Q36803164-F8BC3DCD-C475-4C52-AD07-91135325E1A4Q36926643-B15696AE-32AB-449D-B47B-EA3122A0EB22Q37258669-47D6F384-7061-4F9D-9481-749103427266Q37291693-7A2D40C9-7FE3-42A3-8254-F106C856E384Q37698319-3086E05C-4261-4B06-9B48-9D57977CBF87Q37833125-E1FF008B-41A2-4CED-9BBD-74FBD8BF8C2FQ37999929-5792A06A-5C5A-451D-B7C7-676A922C5CF3Q38048724-B083E6B4-98B8-4FF6-AD43-16C47FC4FC96Q38169164-AF48270B-E9BF-4147-BF64-91C4334F4234Q38564796-AF123CC5-562E-410C-B42A-EA7473B4A4CBQ38974749-53BCB497-5A94-46A5-8A8D-A8A33892A146Q39038172-850A52AA-87A3-4021-A552-AC8724584B77Q39381979-1DBF9C42-9DA4-4145-B65E-14B3A16996FBQ39497293-0E339A80-15E8-46C9-9BA1-2B91A8E4A6EA
P2860
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
description
2008 nî lūn-bûn
@nan
2008 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@ast
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@en
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@nl
type
label
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@ast
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@en
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@nl
prefLabel
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@ast
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@en
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated.
@nl
P2093
P2860
P921
P1433
P1476
Biogenesis of the trypanosome endo-exocytotic organelle is cytoskeleton mediated
@en
P2093
Derrick R Robinson
Nicolas Landrein
Sophie Nowacki
P2860
P356
10.1371/JOURNAL.PBIO.0060105
P407
P577
2008-05-01T00:00:00Z