Transcription-associated mutational pressure in the Parvovirus B19 genome: Reactivated genomes contribute to the variability of viral populations

Vladislav Victorovich Khrustalev*, Marina Anatolyevna Ermalovich, Judith M. Hübschen, Tatyana Aleksandrovna Khrustaleva

*Corresponding author for this work

Research output: Contribution to journalArticleResearchpeer-review

3 Citations (Scopus)

Abstract

In this study we used non-overlapping parts of the two long open reading frames coding for nonstructural (NS) and capsid (VP) proteins of all available sequences of the Parvovirus B19 subgenotype 1a genome and found out that the rates of A to G, C to T and A to T mutations are higher in the first long reading frame (NS) of the virus than in the second one (VP). This difference in mutational pressure directions for two parts of the same viral genome can be explained by the fact of transcription of just the first long reading frame during the lifelong latency in nonerythroid cells. Adenine deamination (producing A to G and A to T mutations) and cytosine deamination (producing C to T mutations) occur more frequently in transcriptional bubbles formed by DNA “plus” strand of the first open reading frame. These mutations can be inherited only in case of reactivation of the infectious virus due to the help of Adenovirus that allows latent Parvovirus B19 to start transcription of the second reading frame and then to replicate its genome by the rolling circle mechanism using the specific origin. Results of this study provide evidence that the genomes reactivated from latency make significant contributions to the variability of Parvovirus B19.

Original languageEnglish
Pages (from-to)199-207
Number of pages9
JournalJournal of Theoretical Biology
Volume435
DOIs
Publication statusPublished - 21 Dec 2017

Keywords

  • Adenine deamination
  • Cytosine deamination
  • Guanine oxidation
  • Nucleotide usage bias
  • Secondary structure of DNA

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