Data from: microCT-based phenomics in the zebrafish skeleton reveals virtues of deep phenotyping in a distributed organ system

Matthew Hur, Charlotte A. Gistelinck, Philippe Huber, Jane Lee, Marjorie H. Thompson, Adrian T. Monstad-Rios, Claire J. Watson, Sarah K. McMenamin, Andy Willaert, David M. Parichy, Paul Coucke & Ronald Y. Kwon
Phenomics, which ideally involves in-depth phenotyping at the whole-organism scale, may enhance our functional understanding of genetic variation. Here, we demonstrate methods to profile hundreds of phenotypic measures comprised of morphological and densitometric traits at a large number of sites within the axial skeleton of adult zebrafish. We show the potential for vertebral patterns to confer heightened sensitivity, with similar specificity, in discriminating mutant populations compared to analyzing individual vertebrae in isolation. We identify phenotypes...
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