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Comprehensive resolution and classification of the Epstein Barr virus transcriptome

Author

Listed:
  • Truong D. Nguyen

    (Tulane University School of Medicine)

  • Jia Wang

    (Tulane University School of Medicine)

  • Meggie T. Lam

    (Tulane University School of Medicine)

  • Harris McFerrin

    (Xavier University of Louisiana)

  • Tina M. O’Grady

    (Tulane University School of Medicine)

  • Claire Roberts

    (Tulane University School of Medicine)

  • Nicholas Otterloo

    (Tulane University School of Medicine)

  • Trang T. Nguyen

    (Tulane University School of Medicine)

  • Melody Baddoo

    (Tulane Cancer Center)

  • Dorota Wyczechowska

    (Louisiana State University Health Sciences Center)

  • Maria Morales

    (Tulane Cancer Center)

  • Yan Dong

    (Tulane University)

  • Erik K. Flemington

    (Tulane University School of Medicine
    Xavier University of Louisiana)

Abstract

Virus genomes harbor compacted repertoires of genes and regulatory elements. Through long-read sequencing, we provide a comprehensive Epstein Barr virus (EBV) transcriptome analysis, identifying 1453 transcript isoforms and resolving the major isoform of all but one lytic reading frame. Further, we categorize each transcript according to their dependence on viral DNA replication. We show that the late gene viral preinitiation complex, vPIC also activates early promoters/genes, we identify active alternate promoters with distinct dependencies on viral DNA replication, we discover biphasic promoters with embedded features of both early and late promoters. Genetic and chromatin interaction studies identify an enhancer function for the viral lytic origin of replication (OriLyt). We also observe substantial viral read-through transcription that likely causes transcriptional interference and fine tuning of viral promoter activity. In some loci with same direction overlapping gene configurations, polyA read-through is necessary to facilitate transcription through entire ORFs while also giving rise to highly abundant viral lncRNAs due to the partial nature of read-through. Altogether, this study identifies extensive viral transcriptome diversity, it resolves the major isoforms for nearly all lytic ORFs, and it identifies the alternative regulatory modes driving the temporal regulation of EBV lytic gene expression.

Suggested Citation

  • Truong D. Nguyen & Jia Wang & Meggie T. Lam & Harris McFerrin & Tina M. O’Grady & Claire Roberts & Nicholas Otterloo & Trang T. Nguyen & Melody Baddoo & Dorota Wyczechowska & Maria Morales & Yan Dong , 2025. "Comprehensive resolution and classification of the Epstein Barr virus transcriptome," Nature Communications, Nature, vol. 16(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61870-3
    DOI: 10.1038/s41467-025-61870-3
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    References listed on IDEAS

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