Proteomics

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Immunoprecipitation of RNA-DNA hybrid interacting proteins in Trypanosoma brucei reveals conserved and novel activities, including in host immune evasion by antigenic variation


ABSTRACT: RNA-DNA hybrids are widespread epigenetic features of genomes that provide a growing range of activities in transcription, chromatin and DNA replication and repair. Understanding of these diverse functions has been advanced by characterising the proteins that interact with the hybrids, with all such studies revealing hundreds of potential interactors. However, all interaction analyses to date have focused on mammalian cells, and so it is unclear if a similar spectrum of RNA-DNA hybrid interactors found in other eukaryotes, thus limiting our understanding of the conserved and lineage-specific activities linked to these genetic structures. The African trypanosome is a compelling organism in which to address these questions. As a divergent single-cell eukaryotic parasite of the Discoba grouping, Trypanosoma brucei displays substantial divergence in several aspects of core biology from its mammalian host and, unusually for a protist, has well-developed tools for molecular genetic analysis. For these reasons, we used DNA-RNA hybrid immunoprecipitation coupled with mass spectrometry to reveal 602 putative interactors in T. brucei mammal- or insect vector-infective stage cells. We show that the approach selects for a subset of the parasite proteome and reveals a range of predicted RNA-DNA hybrid associated activities, some overlapping with similar studies in mammals. We demonstrate that loss of three factors, two putative helicases and a RAD51 paralogue, impact on T. brucei nuclear RNA-DNA hybrid and DNA damage levels. Moreover, loss of each affects the operation of the crucial parasite immune survival mechanism of antigenic variation. Thus, our work reveals the broad range of activities contributed by RNA-DNA hybrids to T. brucei biology, including new functions in host immune evasion as well as many conserved with mammals, and so likely fundamental to eukaryotic genome function.

INSTRUMENT(S): LTQ Orbitrap

ORGANISM(S): Trypanosoma Brucei

DISEASE(S): Trypanosomiasis

SUBMITTER: Richard Burchmore  

LAB HEAD: Richard McCulloch

PROVIDER: PXD042146 | Pride | 2024-01-26

REPOSITORIES: Pride

Dataset's files

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Action DRS
F138011.dat Other
F138012.dat Other
F138013.dat Other
F138014.dat Other
F141375.dat Other
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Publications

Immunoprecipitation of RNA-DNA hybrid interacting proteins in Trypanosoma brucei reveals conserved and novel activities, including in the control of surface antigen expression needed for immune evasion by antigenic variation.

Girasol Mark J MJ   Briggs Emma M EM   Marques Catarina A CA   Batista José M JM   Beraldi Dario D   Burchmore Richard R   Lemgruber Leandro L   McCulloch Richard R  

Nucleic acids research 20231101 20


RNA-DNA hybrids are epigenetic features of genomes that provide a diverse and growing range of activities. Understanding of these functions has been informed by characterising the proteins that interact with the hybrids, but all such analyses have so far focused on mammals, meaning it is unclear if a similar spectrum of RNA-DNA hybrid interactors is found in other eukaryotes. The African trypanosome is a single-cell eukaryotic parasite of the Discoba grouping and displays substantial divergence  ...[more]

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