Julia C Boughner1, Matthijs C van Eede2, Shoshana Spring2, Lisa X Yu2, Nasim Rostampour1, R Mark Henkelman2,3. 1. Department of Anatomy & Cell Biology, College of Medicine, University of Saskatchewan, Saskatoon, Saskatchewan, Canada. 2. Mouse Imaging Centre, Hospital for Sick Children, Toronto, Ontario, Canada. 3. Department of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada.
Abstract
BACKGROUND: The p63 gene is integral to the development of many body parts including limb, palate, teeth, and urogenital tract. Loss of p63 expression may alter developmental rate, which is crucial to normal morphogenesis. To validate a novel, unbiased embryo phenotyping software tool, we tested whether delayed development contributes to the pathological phenotype of a p63 mouse mutant (p63-/- ). We quantified dysmorphology in p63-/- embryos and tested for universal growth delay relative to wild-type (WT) embryos. Fixed embryos (n = 6; p63-/- ) aged day (E) 15.5 were micro-CT scanned and quantitatively analyzed using a digital WT atlas that defined volumetric differences between p63-/- and WT embryos. RESULTS: p63-/- embryos showed a growth delay of approximately 22 hr (0.9 days). Among the E15.5 mutants, overall size was closest to WT E14.6 mice but shape was closest to WT E14.0. The atlas clearly identified in p63-/- embryos malformations of epithelial derivatives including limbs, tail, urogenital structures, brain, face, and tooth. CONCLUSIONS: The software atlas technique described the p63-/- phenotype as a combination of developmental delay (i.e., heterochrony) and malformation (i.e., pathological shape; failed organogenesis). This study identifies for the first time global and local roles for p63 in prenatal growth and development. Developmental Dynamics 247:779-787, 2018.
BACKGROUND: The p63 gene is integral to the development of many body parts including limb, palate, teeth, and urogenital tract. Loss of p63 expression may alter developmental rate, which is crucial to normal morphogenesis. To validate a novel, unbiased embryo phenotyping software tool, we tested whether delayed development contributes to the pathological phenotype of a p63mouse mutant (p63-/- ). We quantified dysmorphology in p63-/- embryos and tested for universal growth delay relative to wild-type (WT) embryos. Fixed embryos (n = 6; p63-/- ) aged day (E) 15.5 were micro-CT scanned and quantitatively analyzed using a digital WT atlas that defined volumetric differences between p63-/- and WT embryos. RESULTS:p63-/- embryos showed a growth delay of approximately 22 hr (0.9 days). Among the E15.5 mutants, overall size was closest to WT E14.6 mice but shape was closest to WT E14.0. The atlas clearly identified in p63-/- embryos malformations of epithelial derivatives including limbs, tail, urogenital structures, brain, face, and tooth. CONCLUSIONS: The software atlas technique described the p63-/- phenotype as a combination of developmental delay (i.e., heterochrony) and malformation (i.e., pathological shape; failed organogenesis). This study identifies for the first time global and local roles for p63 in prenatal growth and development. Developmental Dynamics 247:779-787, 2018.
Authors: Stefan H Geyer; Barbara Maurer-Gesek; Lukas F Reissig; Julia Rose; Fabrice Prin; Robert Wilson; Antonella Galli; Catherine Tudor; Jacqueline K White; Timothy J Mohun; Wolfgang J Weninger Journal: J Anat Date: 2021-08-25 Impact factor: 2.921
Authors: Matthew L Fisher; Seamus Balinth; Yon Hwangbo; Caizhi Wu; Carlos Ballon; John E Wilkinson; Gary L Goldberg; Alea A Mills Journal: Cancer Res Date: 2021-10-25 Impact factor: 13.312