Identification of a stomatin orthologue in vacuoles induced in human erythrocytes by malaria parasites. A role for microbial raft proteins in apicomplexan vacuole biogenesis.
about
Erythrocyte G protein as a novel target for malarial chemotherapyModulation of T cell activation by stomatin-like protein 2Identification and characterization of a novel Plasmodium falciparum merozoite apical protein involved in erythrocyte binding and invasionProteomic analysis of detergent-resistant membrane microdomains in trophozoite blood stage of the human malaria parasite Plasmodium falciparumPlasmodium falciparum enolase: stage-specific expression and sub-cellular localizationProtective properties and surface localization of Plasmodium falciparum enolaseHost cell remodeling by pathogens: the exomembrane system in Plasmodium-infected erythrocytesAn erythrocyte vesicle protein exported by the malaria parasite promotes tubovesicular lipid import from the host cell surfacePlasmodium vivax Tryptophan Rich Antigen PvTRAg36.6 Interacts with PvETRAMP and PvTRAg56.6 Interacts with PvMSP7 during Erythrocytic Stages of the ParasiteThe Plasmodium falciparum rhoptry protein RhopH3 plays essential roles in host cell invasion and nutrient uptakePlasmodium falciparum parasites deploy RhopH2 into the host erythrocyte to obtain nutrients, grow and replicateCharacterization of a membrane-associated rhoptry protein of Plasmodium falciparumExport of virulence proteins by malaria-infected erythrocytes involves remodeling of host actin cytoskeletonThe Plasmodium rhoptry associated protein complex is important for parasitophorous vacuole membrane structure and intraerythrocytic parasite growthPlasmodium falciparum Pf34, a novel GPI-anchored rhoptry protein found in detergent-resistant microdomainsA bacterial phosphatase-like enzyme of the malaria parasite Plasmodium falciparum possesses tyrosine phosphatase activity and is implicated in the regulation of band 3 dynamics during parasite invasion.Slipins: ancient origin, duplication and diversification of the stomatin protein familyFormation of the food vacuole in Plasmodium falciparum: a potential role for the 19 kDa fragment of merozoite surface protein 1 (MSP1(19))Schistosoma mansoni Stomatin like protein-2 is located in the tegument and induces partial protection against challenge infection.The conserved clag multigene family of malaria parasites: essential roles in host-pathogen interactionCharacterization of Plasmodium vivax Early Transcribed Membrane Protein 11.2 and Exported Protein 1Cytoplasmic remodeling of erythrocyte raft lipids during infection by the human malaria parasite Plasmodium falciparumMaurer's clefts of Plasmodium falciparum are secretory organelles that concentrate virulence protein reporters for delivery to the host erythrocyte.Lipid rafts and malaria parasite infection of erythrocytes.Stable Allele Frequency Distribution of the Plasmodium falciparum clag Genes Encoding Components of the High Molecular Weight Rhoptry Protein ComplexExport of malaria proteins requires co-translational processing of the PEXEL motif independent of phosphatidylinositol-3-phosphate binding.Apicomplexa in mammalian cells: trafficking to the parasitophorous vacuole.Role of the Plasmodium export element in trafficking parasite proteins to the infected erythrocyte.RALP1 is a rhoptry neck erythrocyte-binding protein of Plasmodium falciparum merozoites and a potential blood-stage vaccine candidate antigen.An essential dual-function complex mediates erythrocyte invasion and channel-mediated nutrient uptake in malaria parasites.Cytoskeletal and membrane remodelling during malaria parasite invasion of the human erythrocyte.Human erythrocyte remodelling during Plasmodium falciparum malaria parasite growth and egress.Feeling at home from arrival to departure: protein export and host cell remodelling during Plasmodium liver stage and gametocyte maturation.Positive selection on the Plasmodium falciparum clag2 gene encoding a component of the erythrocyte-binding rhoptry protein complex.Disruption of lipid rafts interferes with the interaction of Toxoplasma gondii with macrophages and epithelial cells.Identification, localization, and functional implications of the microdomain-forming stomatin family in the ciliated protozoan Paramecium tetraurelia.Flotillin and RacH modulate the intracellular immunity of Dictyostelium to Mycobacterium marinum infection.Plasmodium lipid rafts contain proteins implicated in vesicular trafficking and signalling as well as members of the PIR superfamily, potentially implicated in host immune system interactions.Organization of ETRAMPs and EXP-1 at the parasite-host cell interface of malaria parasites.Lipid Droplet, a Key Player in Host-Parasite Interactions.
P2860
Q21144682-64ECD90C-99EA-4CC9-8A96-4E67B16FE24AQ24315757-850191A8-72C4-4B7D-83FC-FA88C7F717BDQ27230023-917D2596-CDCB-44CF-9F39-D2DC4AA24610Q27973532-6BA79562-43B4-4E87-A7C5-7F7922371371Q27973861-AE8195BE-85CB-4415-99D8-A8A84C0B735BQ27973862-67DD9813-B5E2-47F8-8565-FB9D522C8166Q28072465-17D4A300-B2D7-4E23-822B-ED84B368DF56Q28473292-CAAC3C6D-39BF-41BF-9E62-2E43DBBA298EQ28550605-D86DF92A-ED2D-4E03-93AC-482B675375CAQ30039603-445042FD-5B27-40C8-8D24-4377345642C7Q30039619-82D5DDF4-0393-428A-953B-CA0D8BD84BA8Q30041651-4B089527-4C04-45C1-B2E0-3E50DA80B5C7Q30042333-F422125A-A831-4F58-9090-FB1CAC25528DQ30042719-CA795BAF-927B-4D3C-80C0-9015B988FA7CQ30043644-2AC1C5D1-0C89-4B1E-87A4-543E5750A659Q30045348-21845214-F41F-4FF6-85BF-67D0983A2341Q30481355-6B40FC87-AF76-4130-B6E0-9AA5A0CAA964Q33366572-E676B20C-B00C-414C-8688-98FDD1F4FE0BQ33531748-802B262C-E349-4082-9C8F-819D0236F61BQ35033540-AF55F007-8307-4729-9DED-63BB0AB6FF43Q35642087-FBEF5816-BFB7-49DB-A964-4CD66FCD8DF7Q35990740-CB4581A6-00D2-44B6-AE8B-C317FD20479FQ36445940-6152161B-6CFF-499A-B375-E67664C9ED88Q36447783-3CDB757C-7DB2-4D58-A8DE-5BD078BC1157Q36463298-C36E5DA3-7BB7-4E29-B266-B1B10A6557D8Q36541151-B897E2F7-BE7C-45AE-AEEA-A97413B7AA98Q37100237-C3F1E741-A403-4478-968A-1AE3BDF7F7DDQ37193552-1FD6035D-911E-4708-8EFA-1B48D615389BQ37264788-26B8E70B-8551-4FF8-95E5-C1EA64857F1AQ37699084-CE834BCE-262C-4906-BF4F-0E7207F0E382Q37896123-49884AA7-4746-4D54-BAD9-06B1E0713A8FQ37982132-C2BA4F76-D692-41C8-982C-7028E0367D5AQ38170555-EFCA3931-3DCB-4C0B-9152-1C49740E157BQ38684677-BAA00E15-E9A6-494D-B127-F6AA374DB2E2Q39219658-633D1D4F-EA85-4916-9EB7-BDFFBAE02E5AQ39769086-74356745-7DF3-4379-BD58-19FBEE628C47Q46473864-B14ED7D0-1F1D-4450-92D9-8CC33015327DQ47870540-420ED00A-ABB4-4152-A82B-D109903A7212Q48022543-03E2BA45-38CF-4F81-B3EB-0D53D88B069FQ54964249-4429A444-5BCD-48FD-BB59-D38F0E2725F2
P2860
Identification of a stomatin orthologue in vacuoles induced in human erythrocytes by malaria parasites. A role for microbial raft proteins in apicomplexan vacuole biogenesis.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@en
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@nl
type
label
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@en
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@nl
prefLabel
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@en
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@nl
P2093
P2860
P356
P1476
Identification of a stomatin o ...... icomplexan vacuole biogenesis.
@en
P2093
Jon S Morrow
Kasturi Haldar
Thomas Akompong
P2860
P304
48413-48421
P356
10.1074/JBC.M307266200
P407
P577
2003-09-10T00:00:00Z