Scientific Reports (Mar 2021)

Quantitative conversion of biomass in giant DNA virus infection

  • Mikael Kördel,
  • Martin Svenda,
  • Hemanth K. N. Reddy,
  • Emelie Fogelqvist,
  • Komang G. Y. Arsana,
  • Bejan Hamawandi,
  • Muhammet S. Toprak,
  • Hans M. Hertz,
  • Jonas A. Sellberg

DOI
https://doi.org/10.1038/s41598-021-83547-9
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 12

Abstract

Read online

Abstract Bioconversion of organic materials is the foundation of many applications in chemical engineering, microbiology and biochemistry. Herein, we introduce a new methodology to quantitatively determine conversion of biomass in viral infections while simultaneously imaging morphological changes of the host cell. As proof of concept, the viral replication of an unidentified giant DNA virus and the cellular response of an amoebal host are studied using soft X-ray microscopy, titration dilution measurements and thermal gravimetric analysis. We find that virions produced inside the cell are visible from 18 h post infection and their numbers increase gradually to a burst size of 280–660 virions. Due to the large size of the virion and its strong X-ray absorption contrast, we estimate that the burst size corresponds to a conversion of 6–12% of carbonaceous biomass from amoebal host to virus. The occurrence of virion production correlates with the appearance of a possible viral factory and morphological changes in the phagosomes and contractile vacuole complex of the amoeba, whereas the nucleus and nucleolus appear unaffected throughout most of the replication cycle.