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  • Title: A three-phase model of arthropod segmentation.
    Author: Minelli A.
    Journal: Dev Genes Evol; 2001 Oct; 211(10):509-21. PubMed ID: 11702202.
    Abstract:
    Molecular and morphological evidence (expression patterns of pair-rule genes and segmental position of the genital openings and other segmental markers) suggest that the segmental units of the arthropod body are specified, in early ontogeny, by three spatially and/or temporally distinct mechanisms and do not appear in a strict antero-posterior sequence. A first anterior set of indivisible segments (naupliar segments, possibly three in all arthropods) is followed by a set of more caudal (post-naupliar) primary units (eosegments, possibly ten in all arthropods) which then undergo a process of secondary segmentation, thus giving rise to a higher number of definitive segments (merosegments). The number of merosegments deriving from each eosegment is characteristic of the different arthropod clades and is mostly stable at the level of the traditional arthropodan classes or subclasses. All their segmentation patterns, however, including those found in the segmental organisation of highly segmented forms (such as centipedes and millipedes, notostracan, lipostracan and anostracan crustaceans, and trilobites) are reducible to the basic groundplan with three naupliar and ten postnaupliar segments. These basic units of arthropod segmentation may also have an equivalent in other Ecdysozoa, despite the lack of any segmentation (nematodes) or, at least, of an overt segmentation (kinorhynchs).
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