Mosaic VSGs and the scale of Trypanosoma brucei antigenic variation

doi:10.1371/journal.ppat.1003502

PMID: 23853603DOI: 10.1371/journal.ppat.1003502Jul 16, 2013Paper

Mosaic VSGs and the scale of Trypanosoma brucei antigenic variation

PLoS Pathogens

James P J HallJ David Barry

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Abstract

A main determinant of prolonged Trypanosoma brucei infection and transmission and success of the parasite is the interplay between host acquired immunity and antigenic variation of the parasite variant surface glycoprotein (VSG) coat. About 0.1% of trypanosome divisions produce a switch to a different VSG through differential expression of an archive of hundreds of silent VSG genes and pseudogenes, but the patterns and extent of the trypanosome diversity phenotype, particularly in chronic infection, are unclear. We applied longitudinal VSG cDNA sequencing to estimate variant richness and test whether pseudogenes contribute to antigenic variation. We show that individual growth peaks can contain at least 15 distinct variants, are estimated computationally to comprise many more, and that antigenically distinct 'mosaic' VSGs arise from segmental gene conversion between donor VSG genes or pseudogenes. The potential for trypanosome antigenic variation is probably much greater than VSG archive size; mosaic VSGs are core to antigenic variation and chronic infection.

Associated Datasets

Data from: Mosaic VSGs and the scale of Trypanosoma brucei antigenic variation

Jun 7, 2013·James P. J. HallHuanhuan Wang

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Datasets Mentioned

KC434956

Methods Mentioned

PCR

transgenically

transgenic

transfection

Software Mentioned

PyMol

SGC

BLAST

PHYRE2

PyMOL Molecular Graphics System

EstimateS

custom Ruby scripts

TASSER

CLC Genomics Workbench

eBioX

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