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Genome-wide analysis of the diatom cell cycle unveils a novel type of cyclins involved in environmental signaling
Huysman, M.J.J.; Martens, C.; Vandepoele, K.; Gillard, J.; Rayko, E.; Heijde, M.; Bowler, C.; Inzé, D.; Van de Peer, Y.; De Veylder, L.; Vyverman, W. (2010). Genome-wide analysis of the diatom cell cycle unveils a novel type of cyclins involved in environmental signaling. Genome Biol. 11(2): 19 pp. http://dx.doi.org/10.1186/gb-2010-11-2-r17
In: Genome Biology. BMC: London. ISSN 1465-6906; e-ISSN 1474-760X, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Auteurs  Top 
  • Huysman, M.J.J., meer
  • Martens, C., meer
  • Vandepoele, K., meer
  • Gillard, J., meer
  • Rayko, E.
  • Heijde, M.
  • Bowler, C.
  • Inzé, D., meer
  • Van de Peer, Y., meer
  • De Veylder, L., meer
  • Vyverman, W., meer

Abstract

    Background

    Despite the enormous importance of diatoms in aquatic ecosystems and their broad industrial potential, little is known about their life cycle control. Diatoms typically inhabit rapidly changing and unstable environments, suggesting that cell cycle regulation in diatoms must have evolved to adequately integrate various environmental signals. The recent genome sequencing of Thalassiosira pseudonana and Phaeodactylum tricornutum allows us to explore the molecular conservation of cell cycle regulation in diatoms.

    Results

    By profile-based annotation of cell cycle genes, counterparts of conserved as well as new regulators were identified in T. pseudonana and P. tricornutum. In particular, the cyclin gene family was found to be expanded extensively compared to that of other eukaryotes and a novel type of cyclins was discovered, the diatom-specific cyclins. We established a synchronization method for P. tricornutum that enabled assignment of the different annotated genes to specific cell cycle phase transitions. The diatom-specific cyclins are predominantly expressed at the G1-to-S transition and some respond to phosphate availability, hinting at a role in connecting cell division to environmental stimuli.

    Conclusion

    The discovery of highly conserved and new cell cycle regulators suggests the evolution of unique control mechanisms for diatom cell division, probably contributing to their ability to adapt and survive under highly fluctuating environmental conditions.


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