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Peer-reviewed veterinary case report

Severe hemophilia B in Rhodesian Ridgebacks caused by G244E gene

By Mischke, R et al.·Published in Veterinary journal (London, England : 1997)·2011·Small Animal Clinic, Germany·View original on PubMed

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Original publication title: G244E in the canine factor IX gene leads to severe haemophilia B in Rhodesian Ridgebacks.

Species:
dog

Plain-English summary

A group of male Rhodesian Ridgebacks with severe bleeding issues were found to have a genetic mutation causing haemophilia B, a condition that affects their blood's ability to clot. The researchers identified a specific change in the factor IX gene that leads to this problem, which was present in all affected dogs but not in healthy ones. This mutation is significant enough to cause serious health concerns for these dogs, as it severely impairs their clotting ability. Understanding this genetic defect can help in managing and treating affected dogs more effectively.

People also search for: Rhodesian Ridgeback bleeding problems · dog haemophilia B symptoms · genetic testing for dogs with bleeding issues

Abstract

Haemophilia B in Rhodesian Ridgebacks is currently the most important canine haemophilia in Germany. The aim of this study was to define the underlying genetic defect. Genetic studies were performed including six phenotypically affected male dogs (factor IX activity: approximately 1%), four suspected carriers (factor IX activity 48-69%, one confirmed by affected offspring), and 12 healthy dogs. Comparison of the entire coding region of the canine factor IX DNA sequences and exon-intron junctions from affected dogs with the wild type canine factor IX DNA revealed a G-A missense mutation in exon 7. This mutation results in a glycine (GGA) to glutamic acid (GAA) exchange in the catalytic domain of the haemophilic factor IX. All affected dogs were hemizygous for the detected mutation and carriers were heterozygous, whereas none of the Rhodesian Ridgebacks with normal factor IX activity showed the mutation. No further alterations in the sequences between affected dogs and the healthy control group could be observed. None of the Rhodesian Ridgebacks with undefined haemophilia B status (n=30) and no individual of three other dog breeds (Doberman Pinscher: n=20; German Wire haired Pointer: n=20; Labrador: n=25) showed the presence of the mutation. Amino acid sequence alignment and protein structural modelling analysis indicate that the detected mutation causes a relevant functional defect. The results of this study suggest that the detected mutation is responsible for a severe form of haemophilia B in Rhodesian Ridgebacks.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/20303304/