Unveiling vertebrate development dynamics in frog Xenopus laevis using micro-CT imaging

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Authors

LÁZŇOVSKÝ Jakub KAVKOVÁ Michaela REIS Alice Helena ROBOVSKA-HAVELKOVA Pavla AGOSTINI MAIA Lorena KŘIVÁNEK Jan ZIKMUND Tomas KAISER Jozef BUCHTOVÁ Marcela HARNOŠ Jakub

Year of publication 2024
Type Article in Periodical
MU Faculty or unit

Faculty of Science

Citation
Web https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/giae037/7714386?login=true
Doi http://dx.doi.org/10.1093/gigascience/giae037
Keywords Xenopus laevis; development; vertebrates; micro-computed tomography; morphological changes
Description Background Xenopus laevis, the African clawed frog, is a versatile vertebrate model organism in various biological disciplines, prominently in developmental biology to study body plan reorganization during metamorphosis. However, a notable gap exists in the availability of comprehensive datasets encompassing Xenopus' late developmental stages.Findings This study utilized micro-computed tomography (micro-CT), a noninvasive 3-dimensional (3D) imaging technique with micrometer-scale resolution, to explore the developmental dynamics and morphological changes in Xenopus laevis. Our approach involved generating high-resolution images and computed 3D models of developing Xenopus specimens, spanning from premetamorphosis tadpoles to fully mature adults. This dataset enhances our understanding of vertebrate development and supports various analyses. We conducted a careful examination, analyzing body size, shape, and morphological features, focusing on skeletogenesis, teeth, and organs like the brain and gut at different stages. Our analysis yielded valuable insights into 3D morphological changes during Xenopus' development, documenting details previously unrecorded. These datasets hold the solid potential for further morphological and morphometric analyses, including segmentation of hard and soft tissues.Conclusions Our repository of micro-CT scans represents a significant resource that can enhance our understanding of Xenopus' development and the associated morphological changes in the future. The widespread utility of this amphibian species, coupled with the exceptional quality of our scans, which encompass a comprehensive series of developmental stages, opens up extensive opportunities for their broader research application. Moreover, these scans can be used in virtual reality, 3D printing, and educational contexts, further expanding their value and impact.
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