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Genetic cause for congenital methemoglobinemia in an Australian Pomeranian dog.

Shijia ZhouRick TearleRaziallah Jafari JozaniBethany WinraOlaf SchaafAnthony NicholsonAnne E Peaston
Published in: Journal of veterinary internal medicine (2019)
Little is known about genetic causes of congenital methemoglobinemia in dogs. Here, we report a CYB5 R3 mutation in a Pomeranian dog with congenital methemoglobinemia. A 6-year-old neutered female Pomeranian dog was investigated for cyanosis noticed during anesthesia for an orthopedic procedure. The history included lifelong mild exercise intolerance and bluish tongue. Methemoglobinemia was diagnosed using co-oximetry. The CYB5 R3 gene was analyzed by comparing the patient's genomic DNA with the reference canine sequence. Mutation functional significance was investigated using snpEff and multispecies protein homology analyses. A homozygous missense single nucleotide CYB5 R3 mutation (ATC ➔ CTC at codon 194) caused a p.Ile194Leu substitution. The pIle194 residue is highly conserved in other mammals, supporting the likely pathogenicity of the substitution. The mutation described here is identical to that associated with familial methemoglobinemia in a family of Japanese Pomeranian dogs. This observation, together with the homozygous mutation found in our case, indicates that the mutant allele may be widespread within the Pomeranian breed internationally.
Keyphrases
  • copy number
  • genome wide
  • transcription factor
  • physical activity
  • circulating tumor
  • high intensity
  • intellectual disability
  • cell free
  • cystic fibrosis
  • circulating tumor cells
  • binding protein
  • body composition