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Apomixis in Achnanthes (Bacillariophyceae); development of a model system for diatom reproductive biology
Sabbe, K.; Chepurnov, V.A.; Vyverman, W.; Mann, D.G. (2004). Apomixis in Achnanthes (Bacillariophyceae); development of a model system for diatom reproductive biology. Eur. J. Phycol. 39(3): 327-341. dx.doi.org/10.1080/0967026042000236445
In: European Journal of Phycology. Cambridge University Press/Taylor & Francis: Cambridge. ISSN 0967-0262, more
Peer reviewed article  

Available in  Authors 
    VLIZ: Open Repository 230742 [ OMA ]

Keywords
    Achnanthes J.B.M. Bory de Saint-Vincent, 1822 [WoRMS]; Bacillariophyceae [WoRMS]
Author keywords
    Achnanthes; apomixis; auxosporulation; Bacillariophyceae; breeding

Authors  Top 
  • Sabbe, K., more
  • Chepurnov, V.A., more
  • Vyverman, W., more
  • Mann, D.G.

Abstract
    The availability of extensive experimental data and remarkable intra- and interspecific variation in breeding behaviour make Achnanthes Bory sensu stricto an especially good model for studying the reproductive and population biology of pennate diatoms. In most Achnanthes species studied, auxospore formation is accompanied by biparental sexual reproduction, but we found uniparental auxosporulation in Achnanthes cf. subsessilis. Auxosporulation appears to be apomictic and follows contraction of the contents of unpaired cells and then a mitotic division, which is normally acytokinetic: one nucleus aborts before the cell develops into an auxospore. Rarely, both daughter nuclei survive and cytokinesis produces two auxospores (two auxospores per mother cell is highly unusual in pennate diatoms); one may abort. Expansion of auxospores is not accompanied by deposition of a transverse perizonium, but a longitudinal perizonium is produced and consists of a wide central strip (structurally similar to the araphid valve) and at least one narrow lateral strip. This newly discovered asexual lineage in Achnanthes is discussed in relation to other reproductive systems found in the genus, and also in relation to the 'sex clock' hypothesis concerning the adaptive significance of the diatom life cycle. Brief information on chloroplast division and nuclear dynamics over the cell cycle is also presented.

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