Literature DB >> 27011072

DINOPHYSIS CAUDATA (DINOPHYCEAE) SEQUESTERS AND RETAINS PLASTIDS FROM THE MIXOTROPHIC CILIATE PREY MESODINIUM RUBRUM(1).

Miran Kim1, Seung Won Nam1, Woongghi Shin1, D Wayne Coats1, Myung Gil Park1.   

Abstract

"Phototrophic"Dinophysis Ehrenberg species are well known to have chloroplasts of a cryptophyte origin, more specifically of the cryptophyte genus complex Teleaulax/Geminigera. Nonetheless, whether chloroplasts of "phototrophic"Dinophysis are permanent plastids or periodically derived kleptoplastids (stolen chloroplasts) has not been confirmed. Indeed, molecular sequence data and ultrastructural data lead to contradictory interpretations about the status of Dinophysis plastids. Here, we used established cultures of D. caudata strain DC-LOHABE01 and M. rubrum strain MR-MAL01 to address the status of Dinophysis plastids. Our approach was to experimentally generate D. caudata with "green" plastids and then follow the ingestion and fate of "reddish-brown" prey plastids using light microscopy, time-lapse videography, and single-cell TEM. Our results for D. caudata resolve the apparent discrepancy between morphological and molecular data by showing that plastids acquired when feeding on M. rubrum are structurally modified and retained as stellate compound chloroplasts characteristic of Dinophysis species.
© 2012 Phycological Society of America.

Entities:  

Keywords:  Dinophysis caudata; Mesodinium rubrum; kleptoplastid; plastid; single-cell TEM; ultrastructure

Year:  2012        PMID: 27011072     DOI: 10.1111/j.1529-8817.2012.01150.x

Source DB:  PubMed          Journal:  J Phycol        ISSN: 0022-3646            Impact factor:   2.923


  11 in total

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