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Optimization of Volumetric Computed Tomography for Skeletal Analysis of Model Genetic Organisms

โœ Scribed by Sergio X. Vasquez; Mark S. Hansen; Ali N. Bahadur; Matthew F. Hockin; Gordon L. Kindlmann; Lisa Nevell; Isabel Q. Wu; David J. Grunwald; David M. Weinstein; Greg M. Jones; Christopher R. Johnson; John L. Vandeberg; Mario R. Capecchi; Charles Keller

Book ID
102746213
Publisher
Wiley (John Wiley & Sons)
Year
2008
Tongue
English
Weight
1011 KB
Volume
291
Category
Article
ISSN
1932-8486

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โœฆ Synopsis

Abstract

Forward and reverse genetics now allow researchers to understand embryonic and postnatal gene function in a broad range of species. Although some genetic mutations cause obvious morphological change, other mutations can be more subtle and, without adequate observation and quantification, might be overlooked. For the increasing number of genetic model organisms examined by the growing field of phenomics, standardized but sensitive methods for quantitative analysis need to be incorporated into routine practice to effectively acquire and analyze everโ€increasing quantities of phenotypic data. In this study, we present platformโ€independent parameters for the use of microscopic xโ€ray computed tomography (microCT) for phenotyping speciesโ€specific skeletal morphology of a variety of different genetic model organisms. We show that microCT is suitable for phenotypic characterization for prenatal and postnatal specimens across multiple species. Anat Rec, 291:475โ€“487, 2008. ยฉ 2008 Wileyโ€Liss, Inc.

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