Documents

DOI

  • Jan Janouškovec
  • Gita G. Paskerova
  • Tatiana S. Miroliubova
  • Kirill V. Mikhailov
  • Thomas Birley
  • Vladimir V. Aleoshin
  • Timur G. Simdyanov
The phylum Apicomplexa comprises human pathogens such as Plasmodium but are also an under-explored hotspot of evolutionary diversity central to understanding the origins of parasitism and non-photosynthetic plastids. We generated single-cell transcriptomes for all major apicomplexan groups lacking large-scale sequence data. Phylogenetic analysis reveals that apicomplexan-like parasites are polyphyletic and their similar morphologies emerged convergently at least three times. Gregarines and eugregarines are monophyletic, against most expectations, and rhytidocystids and Eleutheroschizon are sister lineages to medically important taxa. Although previously unrecognized, plastids in deep-branching apicomplexans are common, and they contain some of the most divergent and AT-rich genomes ever found. In eugregarines, however, plastids are either abnormally reduced or absent, thus increasing known plastid losses in eukaryotes from two to four. Environmental sequences of ten novel plastid lineages and structural innovations in plastid proteins confirm that plastids in apicomplexans and their relatives are widespread and share a common, photosynthetic origin.
Original languageEnglish
Article numbere49662
Number of pages24
JournaleLife
Volume8
Early online date16 Aug 2019
DOIs
StatePublished - 16 Aug 2019

    Research areas

  • DIGYALUM-OWENI PROTOZOA, MARINE GREGARINES, GLOBAL ANALYSIS, LIFE-CYCLE, N. SP, ULTRASTRUCTURE, APICOPLAST, BIOSYNTHESIS, MORPHOLOGY, PHYLOGENY

    Scopus subject areas

  • Environmental Science(all)
  • Biochemistry, Genetics and Molecular Biology(all)

ID: 43396578