Analysis of the VSG gene silent archive in Trypanosoma brucei reveals that mosaic gene expression is prominent in antigenic variation and is favored by archive substructure
about
Telomeric expression sites are highly conserved in Trypanosoma bruceiAntigenic variation in Trypanosoma brucei: joining the DOTsGenome hyperevolution and the success of a parasiteTrypanosoma brucei BRCA2 acts in antigenic variation and has undergone a recent expansion in BRC repeat number that is important during homologous recombinationMicrobial antigenic variation mediated by homologous DNA recombinationGenetic control of resistance to Trypanosoma brucei brucei infection in miceMouse models for pathogenic African trypanosomes: unravelling the immunology of host-parasite-vector interactions.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 AntibodiesMapping of VSG similarities in Trypanosoma brucei.Antigenic diversity is generated by distinct evolutionary mechanisms in African trypanosome species.The genome sequence of Trypanosoma brucei gambiense, causative agent of chronic human african trypanosomiasisThe genome of Spraguea lophii and the basis of host-microsporidian interactions.The evolutionary dynamics of variant antigen genes in Babesia reveal a history of genomic innovation underlying host-parasite interactionRelationship between phylogenetic distribution and genomic features in Neurospora crassa.Widespread variation in transcript abundance within and across developmental stages of Trypanosoma brucei.Blocking variant surface glycoprotein synthesis in Trypanosoma brucei triggers a general arrest in translation initiation.TOPO3alpha influences antigenic variation by monitoring expression-site-associated VSG switching in Trypanosoma brucei.Trichomonas transmembrane cyclases result from massive gene duplication and concomitant development of pseudogenes.The Babesia bovis VESA1 virulence factor subunit 1b is encoded by the 1beta branch of the ves multigene family.Life Stage-Specific Cargo Receptors Facilitate Glycosylphosphatidylinositol-Anchored Surface Coat Protein Transport in Trypanosoma brucei.Nucleotide excision repair in Trypanosoma brucei: specialization of transcription-coupled repair due to multigenic transcriptionAntigenic variation in African trypanosomes.Identification of mimotopes with diagnostic potential for Trypanosoma brucei gambiense variant surface glycoproteins using human antibody fractions.The impact of mutation and gene conversion on the local diversification of antigen genes in African trypanosomesMosaic VSGs and the scale of Trypanosoma brucei antigenic variation.Cell biology of the trypanosome genome.Histone H1 plays a role in heterochromatin formation and VSG expression site silencing in Trypanosoma brucei.DNA break site at fragile subtelomeres determines probability and mechanism of antigenic variation in African trypanosomes.A cell-surface phylome for African trypanosomes.How malaria parasites avoid running out of ammo.Interactions among Trypanosoma brucei RAD51 paralogues in DNA repair and antigenic variation.Genome evolution in trypanosomatid parasites.25 years of African trypanosome research: From description to molecular dissection and new drug discoveryReal-Time Evolution of a Subtelomeric Gene Family in Candida albicansDe Novo Genome Assembly Shows Genome Wide Similarity between Trypanosoma brucei brucei and Trypanosoma brucei rhodesiense.Architecture of a Host-Parasite Interface: Complex Targeting Mechanisms Revealed Through Proteomics.Recombination-driven generation of the largest pathogen repository of antigen variants in the protozoan Trypanosoma cruziCharacterization of a novel class I transcription factor A (CITFA) subunit that is indispensable for transcription by the multifunctional RNA polymerase I of Trypanosoma brucei.Trypanosoma brucei BRCA2 acts in a life cycle-specific genome stability process and dictates BRC repeat number-dependent RAD51 subnuclear dynamics.Mapping replication dynamics in Trypanosoma brucei reveals a link with telomere transcription and antigenic variation.
P2860
Q21144222-92B629B1-FB92-428A-A574-1B9C949F9EEFQ21145841-A607520A-AFAC-4806-A363-AA5C775BCB41Q24630129-280E9BBD-B4C5-4993-94B6-D43198EFBB34Q24646998-E3C1B552-D9B3-4880-AC9B-1E524A1982DAQ27009515-A65BD0ED-5F61-4701-A364-742E03FAABCCQ27306175-E8817AC1-CC54-4ECF-939B-8B0F56672978Q27686928-E798AC97-3290-4FC3-B00F-FBFC6C989ABEQ28592134-ECCB7350-F9B6-4966-8B84-D49E927FB2C8Q30504544-02BDDBD8-66A1-4E92-A1A8-CE106CBB0C9FQ30506471-5315ED19-B0CE-40E5-A8D6-41E5C6D10D47Q30981565-078CD126-3F82-4BBD-8727-028E8DBA662CQ31129897-E7BD0F4D-DEC6-4F24-A6E1-32D950BD7655Q31160341-D8826C4B-1379-407C-848C-4831BA982385Q33450610-016DE137-956F-49DD-850D-14DA3B4D64A3Q33511368-64408BC5-57E8-4490-8E07-DC1C6EC16321Q33512519-E2F0BBFF-60FF-4F80-89C1-D8C0CCFD7406Q33632168-BF8E45B0-D30E-4A23-B339-3E254C748654Q33651018-002A2548-1FC7-478A-BE63-FFD85835ED0AQ33798241-959A6D6C-CE5D-4280-AD0F-0BB20EE4F201Q33896181-8935BF5C-19C4-4E1A-84D5-ABAB531B1AC8Q34069546-D3E9D0C2-8575-477F-89A4-F1201B0CBDCEQ34136433-28EFBF43-BBAE-48BF-A3AE-E9A474A3D086Q34312405-F122385A-38B0-4A62-9B30-3BE43F4F9F86Q34317540-403C62D4-B46D-4D4C-9E92-68FDD49C12C6Q34357533-710F3522-203F-47A5-AC1F-28C563FFE751Q34431847-E3E461B7-6276-4AAE-955A-76EF2A9FFD9CQ34469008-69BE0C9A-5F20-43E2-BAAA-B6C39D872BEAQ34649711-6B43BDEA-3534-4462-BACF-4E86F41EB363Q34654189-9D348347-E4A7-4714-BA53-B61AA19F15A6Q34732711-23D6E033-23E1-47EB-9D8E-F5DFD0D9C7ECQ35206819-9F43A9C4-8C9D-4B4B-ADB2-33DD41B60B6DQ35550761-0DCEE275-4971-4246-A195-59D693B1CA24Q35875131-33E5FB96-A01F-4A87-AC47-13B432847859Q35882372-DE466BB8-736B-434C-9F57-491EB030159AQ35933958-4715D5CA-DCC3-4B42-A96A-CD8A839523D9Q36103884-CBDE10E3-7C56-43AE-AB60-8D14B763C3D5Q36130355-44704F1C-1EC4-40B7-9A22-02747185541AQ36506502-4888B6A3-EEB5-494B-AFEF-E3C6763F255AQ36559261-DDCBCB70-3A30-47F0-914C-C929CA8D33FDQ37098846-3B5BD667-7579-475F-94B0-7EBB4CF1D075
P2860
Analysis of the VSG gene silent archive in Trypanosoma brucei reveals that mosaic gene expression is prominent in antigenic variation and is favored by archive substructure
description
2007 nî lūn-bûn
@nan
2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի սեպտեմբերին 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
Analysis of the VSG gene silen ...... avored by archive substructure
@ast
Analysis of the VSG gene silen ...... avored by archive substructure
@en
Analysis of the VSG gene silen ...... avored by archive substructure
@nl
type
label
Analysis of the VSG gene silen ...... avored by archive substructure
@ast
Analysis of the VSG gene silen ...... avored by archive substructure
@en
Analysis of the VSG gene silen ...... avored by archive substructure
@nl
prefLabel
Analysis of the VSG gene silen ...... avored by archive substructure
@ast
Analysis of the VSG gene silen ...... avored by archive substructure
@en
Analysis of the VSG gene silen ...... avored by archive substructure
@nl
P2860
P3181
P356
P1433
P1476
Analysis of the VSG gene silen ...... avored by archive substructure
@en
P2093
J David Barry
Lucio Marcello
P2860
P304
P3181
P356
10.1101/GR.6421207
P407
P577
2007-09-01T00:00:00Z