AI Article Synopsis
- The shape of Arabidopsis thaliana dry seeds is classified as a prolate spheroid, which aids in analyzing changes in shape during imbibition before germination.
- Differences in seed shape among various genotypes, especially in the triple mutant (ein2-1, ers1-2, etr1-7), are significant, showing different responses to water uptake compared to wild-type seeds.
- During imbibition, wild-type seeds become more asymmetrical and take on an ovoid shape, while ethylene signaling pathway mutants maintain a prolate spheroid shape, indicating the pathway's role in regulating seed shape and polarity.
Article Abstract
The shape of Arabidopsis thaliana dry seed is described here as a prolate spheroid. The accuracy of this approximation is discussed. Considering its limitations, it allows a geometric approximation to the analysis of changes occurring in seed shape during imbibition prior to seed germination as well as the differences in shape between genotypes and their changes during imbibition. The triple mutant ein2-1, ers1-2, etr1-7 presents notable alterations in seed shape. In addition, seeds of this and other mutants in the ethylene signaling pathway (ctr1-1, eto1-1, etr1-1, ein2-1) show different response to imbibition than the wild type. Imbibed seeds of the wild type increase their asymmetry compared with the dry seeds. This is detected by the relative changes in the curvature values in both poles. Thus, during imbibition of the wild-type seeds, the reduction in curvature values observed in the basal pole gives them an ovoid shape. In contrast, in the seeds of the ethylene mutants, reduction in curvature values occurs in both basal and apical poles, and its shape remains as a prolate spheroid. Our data indicate that the ethylene signaling pathway is involved, in general, in the complex regulation of seed shape and, in particular, in the establishment of polarity in seeds, controlling curvature values in the seed poles.
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| http://dx.doi.org/10.1016/j.jplph.2007.10.005 | DOI Listing |
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