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Rewiring host lipid metabolism by large viruses determines the fate of Emiliania huxleyi, a bloom-forming Alga in the ocean
Rosenwasser, S.; Mausz, M.A.; Schatz, D.; Sheyn, U.; Malitsky, S.; Aharoni, A.; Weinstock, E.; Tzfadia, O.; Ben-Dor, S.; Feldmesser, E.; Pohnert, G.; Vardi, A. (2014). Rewiring host lipid metabolism by large viruses determines the fate of Emiliania huxleyi, a bloom-forming Alga in the ocean. Plant Cell 26(6): 2689-2707. http://dx.doi.org/10.1105/tpc.114.125641
In: The Plant Cell. American Society of Plant Biologists: Rockville, MD. ISSN 1040-4651; e-ISSN 1532-298X, meer
Peer reviewed article  

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  • Rosenwasser, S.
  • Mausz, M.A.
  • Schatz, D.
  • Sheyn, U.
  • Malitsky, S.
  • Aharoni, A.
  • Weinstock, E.
  • Tzfadia, O.
  • Ben-Dor, S.
  • Feldmesser, E.
  • Pohnert, G.
  • Vardi, A.

Abstract
    Marine viruses are major ecological and evolutionary drivers of microbial food webs regulating the fate of carbon in the ocean. We combined transcriptomic and metabolomic analyses to explore the cellular pathways mediating the interaction between the bloom-forming coccolithophore Emiliania huxleyi and its specific coccolithoviruses (E. huxleyi virus [EhV]). We show that EhV induces profound transcriptome remodeling targeted toward fatty acid synthesis to support viral assembly. A metabolic shift toward production of viral-derived sphingolipids was detected during infection and coincided with downregulation of host de novo sphingolipid genes and induction of the viral-encoded homologous pathway. The depletion of host-specific sterols during lytic infection and their detection in purified virions revealed their novel role in viral life cycle. We identify an essential function of the mevalonate-isoprenoid branch of sterol biosynthesis during infection and propose its downregulation as an antiviral mechanism. We demonstrate how viral replication depends on the hijacking of host lipid metabolism during the chemical “arms race” in the ocean.

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