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Direct RNA sequencing on nanopore arrays redefines the transcriptional complexity of a viral pathogen

Author

Listed:
  • Daniel P. Depledge

    (New York University School of Medicine)

  • Kalanghad Puthankalam Srinivas

    (New York University School of Medicine)

  • Tomohiko Sadaoka

    (Kobe University Graduate School of Medicine)

  • Devin Bready

    (New York University School of Medicine)

  • Yasuko Mori

    (Kobe University Graduate School of Medicine)

  • Dimitris G. Placantonakis

    (New York University School of Medicine
    New York University School of Medicine
    New York University School of Medicine
    New York University School of Medicine)

  • Ian Mohr

    (New York University School of Medicine
    New York University School of Medicine)

  • Angus C. Wilson

    (New York University School of Medicine
    New York University School of Medicine)

Abstract

Characterizing complex viral transcriptomes by conventional RNA sequencing approaches is complicated by high gene density, overlapping reading frames, and complex splicing patterns. Direct RNA sequencing (direct RNA-seq) using nanopore arrays offers an exciting alternative whereby individual polyadenylated RNAs are sequenced directly, without the recoding and amplification biases inherent to other sequencing methodologies. Here we use direct RNA-seq to profile the herpes simplex virus type 1 (HSV-1) transcriptome during productive infection of primary cells. We show how direct RNA-seq data can be used to define transcription initiation and RNA cleavage sites associated with all polyadenylated viral RNAs and demonstrate that low level read-through transcription produces a novel class of chimeric HSV-1 transcripts, including a functional mRNA encoding a fusion of the viral E3 ubiquitin ligase ICP0 and viral membrane glycoprotein L. Thus, direct RNA-seq offers a powerful method to characterize the changing transcriptional landscape of viruses with complex genomes.

Suggested Citation

  • Daniel P. Depledge & Kalanghad Puthankalam Srinivas & Tomohiko Sadaoka & Devin Bready & Yasuko Mori & Dimitris G. Placantonakis & Ian Mohr & Angus C. Wilson, 2019. "Direct RNA sequencing on nanopore arrays redefines the transcriptional complexity of a viral pathogen," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-08734-9
    DOI: 10.1038/s41467-019-08734-9
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    Cited by:

    1. Francesca Raffini & Giorgio Bertorelle & Roberto Biello & Guido D’Urso & Danilo Russo & Luciano Bosso, 2020. "From Nucleotides to Satellite Imagery: Approaches to Identify and Manage the Invasive Pathogen Xylella fastidiosa and Its Insect Vectors in Europe," Sustainability, MDPI, vol. 12(11), pages 1-38, June.

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