Journal Article

Transcriptome Analysis of Foraminiferan <i>Elphidium margaritaceum</i> Questions the Role of Gene Transfer in Kleptoplastidy

Loïc Pillet and Jan Pawlowski

in Molecular Biology and Evolution

Published on behalf of Society for Molecular Biology and Evolution

Volume 30, issue 1, pages 66-69
Published in print January 2013 | ISSN: 0737-4038
Published online September 2012 | e-ISSN: 1537-1719 | DOI:
Transcriptome Analysis of Foraminiferan Elphidium margaritaceum Questions the Role of Gene Transfer in Kleptoplastidy

More Like This

Show all results sharing these subjects:

  • Evolutionary Biology
  • Molecular and Cell Biology


Show Summary Details


Foraminifera from the genus Elphidium are heterotrophic protists that graze on diatoms and sequester chloroplasts from their algal preys, while digesting the rest of the diatom cell. During that process, known as kleptoplastidy, the acquired plastids remain active inside the foraminiferan cell for several months. As most of the genes required to sustain the activity of the chloroplasts are encoded in the diatom nucleus, it is unknown how the host cell can maintain the photosynthetic activity without this information. It has been proposed that maintenance of kleptoplastids could be explained by horizontal gene transfer (HGT). To test this hypothesis we obtained 17,125 EST sequences of Elphidium margaritaceum, and we screened this data set for diatom nuclear-encoded proteins having a function in photosynthetic activity or plastid maintenance. Our analyses show no evidence for the presence of such transcriptionally active genes and suggest that HGT hypothesis alone cannot explain the chloroplast’s longevity in Elphidium.

Keywords: kleptoplastidy; Foraminifera; diatom; EST; plastid; photosynthesis

Journal Article.  1950 words.  Illustrated.

Subjects: Evolutionary Biology ; Molecular and Cell Biology

Full text: subscription required

How to subscribe Recommend to my Librarian

Users without a subscription are not able to see the full content. Please, subscribe or login to access all content.