期刊论文详细信息
BMC Evolutionary Biology
Morphogenesis along the animal-vegetal axis: fates of primary quartet micromere daughters in the gastropod Crepidula fornicata
Research Article
Kimberly J. Perry1  Jonathan Q. Henry1  Deirdre C. Lyons2 
[1] Department of Cell & Developmental Biology, University of Illinois, 601 S. Goodwin Ave, 61801, Urbana, IL, USA;Scripps Institution of Oceanography, University of California, San Diego, 9500 Gilman Drive, La Jolla, 92093, San Diego, CA, USA;
关键词: Axial elongation;    Gastropoda;    Lophotrochozoa;    Morphogenesis;    Mollusca;    Prototroch;    Spiralia;    Trochoblasts;   
DOI  :  10.1186/s12862-017-1057-1
 received in 2017-05-04, accepted in 2017-08-29,  发布年份 2017
来源: Springer
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【 摘 要 】

BackgroundThe Spiralia are a large, morphologically diverse group of protostomes (e.g. molluscs, annelids, nemerteans) that share a homologous mode of early development called spiral cleavage. One of the most highly-conserved features of spiralian development is the contribution of the primary quartet cells, 1a-1d, to the anterior region of the embryo (including the brain, eyes, and the anterior ciliary band, called the prototroch). Yet, very few studies have analyzed the ultimate fates of primary quartet sub-lineages, or examined the morphogenetic events that take place in the anterior region of the embryo.ResultsThis study focuses on the caenogastropod slipper snail, Crepidula fornicata, a model for molluscan developmental biology. Through direct lineage tracing of primary quartet daughter cells, and examination of these cells during gastrulation and organogenesis stages, we uncovered behaviors never described before in a spiralian. For the first time, we show that the 1a2-1d2 cells do not contribute to the prototroch (as they do in other species) and are ultimately lost before hatching. During gastrulation and anterior-posterior axial elongation stages, these cells cleavage-arrest and spread dramatically, contributing to a thin provisional epidermis on the dorsal side of the embryo. This spreading is coupled with the displacement of the animal pole, and other pretrochal cells, closer to the ventrally-positioned mouth, and the vegetal pole.ConclusionsThis is the first study to document the behavior and fate of primary quartet sub-lineages among molluscs. We speculate that the function of 1a2-1d2 cells (in addition to two cells derived from 1d12, and the 2b lineage) is to serve as a provisional epithelium that allows for anterior displacement of the other progeny of the primary quartet towards the anterior-ventral side of the embryo. These data support a new and novel mechanism for axial bending, distinct from canonical models in which axial bending is suggested to be driven primarily by differential proliferation of posterior dorsal cells. These data suggest also that examining sub-lineages in other spiralians will reveal greater variation than previously assumed.

【 授权许可】

CC BY   
© The Author(s). 2017

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