Variant surface glycoprotein RNA interference triggers a precytokinesis cell cycle arrest in African trypanosomes
about
Telomeric expression sites are highly conserved in Trypanosoma bruceiAssembling the components of the quorum sensing pathway in African trypanosomesMicrobial antigenic variation mediated by homologous DNA recombinationNUP-1 Is a large coiled-coil nucleoskeletal protein in trypanosomes with lamin-like functionsUnfolded Protein Response Pathways in Bloodstream-Form Trypanosoma brucei?Blocking Synthesis of the Variant Surface Glycoprotein Coat in Trypanosoma brucei Leads to an Increase in Macrophage Phagocytosis Due to Reduced Clearance of Surface Coat AntibodiesThe RACK1 homologue from Trypanosoma brucei is required for the onset and progression of cytokinesis.The trypanosome transcriptome is remodelled during differentiation but displays limited responsiveness within life stages.Isolation and analysis of the genetic diversity of repertoires of VSG expression site containing telomeres from Trypanosoma brucei gambiense, T. b. brucei and T. equiperdum.Major surface glycoproteins of insect forms of Trypanosoma brucei are not essential for cyclical transmission by tsetseBlocking variant surface glycoprotein synthesis in Trypanosoma brucei triggers a general arrest in translation initiation.Chaperone requirements for biosynthesis of the trypanosome variant surface glycoproteinA quorum sensing-independent path to stumpy development in Trypanosoma bruceiLineage-specific proteins essential for endocytosis in trypanosomes.Strategies for acquiring the phospholipid metabolite inositol in pathogenic bacteria, fungi and protozoa: making it and taking it.Trypanosoma brucei pteridine reductase 1 is essential for survival in vitro and for virulence in miceDevelopmental regulation and extracellular release of a VSG expression-site-associated gene product from Trypanosoma brucei bloodstream forms.Antigenic variation in African trypanosomes.Surface proteins, ERAD and antigenic variation in Trypanosoma brucei.DNA break site at fragile subtelomeres determines probability and mechanism of antigenic variation in African trypanosomes.Exposure of Trypanosoma brucei to an N-acetylglucosamine-binding lectin induces VSG switching and glycosylation defects resulting in reduced infectivity.Trypanosoma brucei ARF1 plays a central role in endocytosis and golgi-lysosome trafficking.The trypanosomatid-specific N terminus of RPA2 is required for RNA polymerase I assembly, localization, and function.RNA interference mutant induction in vivo demonstrates the essential nature of trypanosome flagellar function during mammalian infection.Multifunctional class I transcription in Trypanosoma brucei depends on a novel protein complexA MORN Repeat Protein Facilitates Protein Entry into the Flagellar Pocket of Trypanosoma brucei.FACT plays a major role in histone dynamics affecting VSG expression site control in Trypanosoma brucei.Selective inhibition of RNA polymerase I transcription as a potential approach to treat African trypanosomiasis.Dynein Light Chain LC8 Is Required for RNA Polymerase I-Mediated Transcription in Trypanosoma brucei, Facilitating Assembly and Promoter Binding of Class I Transcription Factor ACharacterization of a novel class I transcription factor A (CITFA) subunit that is indispensable for transcription by the multifunctional RNA polymerase I of Trypanosoma brucei.A new approach to chemotherapy: drug-induced differentiation kills African trypanosomes.Cell cycle regulation in Trypanosoma brucei.Leishmania adaptor protein-1 subunits are required for normal lysosome traffic, flagellum biogenesis, lipid homeostasis, and adaptation to temperatures encountered in the mammalian host.VEX1 controls the allelic exclusion required for antigenic variation in trypanosomes.Transgenic Leishmania and the immune response to infectionRAP1 is essential for silencing telomeric variant surface glycoprotein genes in Trypanosoma brucei.Life and times: synthesis, trafficking, and evolution of VSG.cAMP signalling in trypanosomatids: role in pathogenesis and as a drug target.VSG switching in Trypanosoma brucei: antigenic variation analysed using RNAi in the absence of immune selection.Let's get fISSical: fast in silico synchronization as a new tool for cell division cycle analysis.
P2860
Q21144222-AC720477-FC16-4DE6-B418-7115BD007596Q26861632-50713B98-7F18-49FF-891A-44F2EA6C5DF4Q27009515-6AB886EF-1009-42EF-B4BA-A3BBE420B7E0Q27319923-6E809EC2-B095-4B5F-91D6-E076E19BF6D1Q28550495-8F03748B-CAA1-4445-93B3-F52375EEF245Q28592134-831A3BC5-F5FD-41CE-A912-0A0762B1268FQ30480155-D25DC82C-9B6E-4537-810B-B09E9116A32FQ33345915-5C47DF6F-E8A6-4D1E-8904-0355ED71754AQ33359774-F1CA5B9F-C3D0-4DEF-AC57-0A71C7EF3801Q33410086-285AD0FB-3244-46B9-944F-E33EDD07B1B9Q33512519-94605A34-54E0-40A6-AD4E-225FCFFC0640Q33522208-F42B2AB9-0631-49D5-ACA8-B49A5CC10191Q33585392-A01F36C5-358C-49E6-8E9C-8F979F9E99F1Q33588730-05A4C6CC-7C42-48B4-B411-D80E52C096EAQ33928824-5A47D31E-8885-4713-9182-2674DB1831EAQ34044853-C6F12B4F-6809-4FC4-8145-2D099FB0ACDAQ34129507-B11377D2-32F7-46C3-9A5F-136C7D00A509Q34136433-534E03C4-E882-43B4-92B4-165D45F03386Q34523352-D643122E-DB1A-4208-B64F-2D9FA5B6E2FDQ34649711-CD64D6D8-8A9C-428F-A18B-065CFD91B2B3Q35154510-A65BBFF8-581E-467E-A1E0-C3B603E80253Q35650813-29EC7CD1-80F8-471A-A496-90E07A8B8374Q35941018-48722AFF-2620-426D-954F-4B9F15EF5A63Q35947086-017A1C45-7982-4B69-8156-6DE028EC967BQ36177213-A4DF493A-E297-4C43-863B-B6BFFC19DB2DQ36208842-92B9D4C7-FC83-41E0-9EC3-345CDB874BD3Q36221396-A00F5AE2-D7D7-4F99-AADC-59A3BD3C773BQ36298245-7CBB8E4C-199E-498E-99ED-17966EB6726DQ36434044-7B8D0FF0-4A4F-47FA-9A4F-28F24EE72893Q36506502-DAA3FA8F-27DA-42B3-8BDF-B5C492BCDE32Q36638375-18732FDE-7A5E-493B-9969-CCA0F5F2E81CQ36750396-EBD92F70-A25E-4D5E-8468-DAFFEB1E4D7EQ36846221-25AB28F8-0BC8-4C39-A61A-36D63EF79788Q37065139-2D1EF6FB-50D2-4835-82CC-5EBEEB1A3978Q37081691-085E8B38-6339-489A-90C9-94ABFCA25E28Q37169037-9E96553D-E277-4018-832E-6AD3AEF4C298Q38204562-D6FF5256-EE86-4432-84EC-CB504629A777Q38500595-E3C84446-F3CE-4C23-96EF-9CA7A17B3205Q38787657-3C42CEAB-6A79-4909-A8DB-387BA5EACBC7Q38976000-712FDC62-BD52-4482-8F85-DFD63E599EC1
P2860
Variant surface glycoprotein RNA interference triggers a precytokinesis cell cycle arrest in African trypanosomes
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Variant surface glycoprotein R ...... arrest in African trypanosomes
@ast
Variant surface glycoprotein R ...... arrest in African trypanosomes
@en
type
label
Variant surface glycoprotein R ...... arrest in African trypanosomes
@ast
Variant surface glycoprotein R ...... arrest in African trypanosomes
@en
prefLabel
Variant surface glycoprotein R ...... arrest in African trypanosomes
@ast
Variant surface glycoprotein R ...... arrest in African trypanosomes
@en
P2093
P2860
P356
P1476
Variant surface glycoprotein R ...... arrest in African trypanosomes
@en
P2093
Gloria Rudenko
James Minchin
Karen Sheader
Katie Hughes
Keith Gull
Sue Vaughan
P2860
P304
P356
10.1073/PNAS.0501886102
P407
P577
2005-06-03T00:00:00Z