Molecular Genetics and Metabolism Reports (Jan 2014)

The retarded hair growth (rhg) mutation in mice is an allele of ornithine aminotransferase (Oat)

  • Jason J. Bisaillon,
  • Legairre A. Radden II,
  • Eric T. Szabo,
  • Samantha R. Hughes,
  • Aaron M. Feliciano,
  • Alex V. Nesta,
  • Belinda Petrovic,
  • Kenneth M. Palanza,
  • Dainius Lancinskas,
  • Theodore A. Szmurlo,
  • David C. Artus,
  • Martin A. Kapper,
  • James P. Mulrooney,
  • Thomas R. King

DOI
https://doi.org/10.1016/j.ymgmr.2014.08.002
Journal volume & issue
Vol. 1, no. C
pp. 378 – 390

Abstract

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Because of the similar phenotypes they generate and their proximate reported locations on Chromosome 7, we tested the recessive retarded hair growth (rhg) and frizzy (fr) mouse mutations for allelism, but found instead that these defects complement. To discover the molecular basis of rhg, we analyzed a large intraspecific backcross panel that segregated for rhg and restricted this locus to a 0.9 Mb region that includes fewer than ten genes, only five of which have been reported to be expressed in skin. Complementation testing between rhg and a recessive null allele of fibroblast growth factor receptor 2 eliminated Fgfr2 as the possible basis of the retarded hair growth phenotype, but DNA sequencing of another of these candidates, ornithine aminotransferase (Oat), revealed a G to C transversion specifically associated with the rhg allele that would result in a glycine to alanine substitution at residue 353 of the gene product. To test whether this missense mutation might cause the mutant phenotype, we crossed rhg/rhg mice with mice that carried a recessive, perinatal-lethal, null mutation in Oat (designated OatΔ herein). Hybrid offspring that inherited both rhg and OatΔ displayed markedly delayed postnatal growth and hair development, indicating that these two mutations are allelic, and suggesting strongly that the G to C mutation in Oat is responsible for the retarded hair growth phenotype. Comparisons among +/+, +/rhg, rhg/rhg and rhg/OatΔ mice showed plasma ornithine levels and ornithine aminotransferase activities (in liver lysates) consistent with this assignment. Because histology of 7- and 12-month-old rhg/rhg and rhg/OatΔ retinas revealed chorioretinal degeneration similar to that described previously for OatΔ/OatΔ mice, we suggest that the rhg mutant may offer an ideal model for gyrate atrophy of the choroid and retina (GACR) in humans, which is also caused by the substitution of glycine 353 in some families.

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