Wisdom Panel, Mars Petcare Science & Diagnostics, Helsinki, Finland.
Department of Veterinary Medicine, Canine Genetics Centre, University of Cambridge, Cambridge, UK.
Anim Genet. 2024 Aug;55(4):687-691. doi: 10.1111/age.13443. Epub 2024 May 16.
Variants in RPGRIP1 and MAP9, termed RPGRIP1ins44 and MAP9del respectively, are both associated with a form of canine progressive retinal atrophy referred to as RPGRIP1-CRD and have both been demonstrated to modify the development and progression of this disease. In the current study both variants were genotyped in at least 50 dogs of 132 diverse breeds and the data reveal that both segregate in multiple breeds. Individually, each variant is common within largely non-overlapping subsets of breed, and there is a negative correlation between their frequencies within breeds that segregate both variants. The frequency of both variants exceeds 0.05 in a single breed only, the Miniature Longhaired Dachshund. These data indicate that both variants are likely to be ancient and predate the development and genetic isolation of modern dog breeds. That both variants are present individually at high frequency in multiple breeds is consistent with the hypothesis that homozygosity of either variant alone is not associated with a clinically relevant phenotype, whereas the negative correlation between the two variants is consistent with the application of selective pressure, from dog breeders, against homozygosity at both loci, probably due to the more severe phenotype associated with homozygosity at both loci.
RPGRIP1 基因内插入 44 个核苷酸变异(RPGRIP1ins44)和 MAP9 缺失变异(MAP9del)分别与一种称为 RPGRIP1-CRD 的犬进行性视网膜萎缩形式有关,并且这两种变异都被证明可以改变这种疾病的发生和进展。在目前的研究中,至少在 132 个不同品种的 50 只狗中对这两种变异进行了基因分型,数据表明这两种变异在多个品种中都存在。单独来看,每个变异在很大程度上不重叠的品种亚群中都很常见,并且在分离这两种变异的品种中,它们的频率之间存在负相关。这两种变异的频率在单一品种中仅超过 0.05,即迷你长毛腊肠犬。这些数据表明,这两种变异都很可能是古老的,早于现代犬种的发展和遗传隔离。这两种变异单独在多个品种中以高频率存在,这与以下假设一致,即单一变异的纯合子并不与临床相关表型相关,而这两种变异之间的负相关与来自犬饲养者的选择压力一致,这可能是由于与两个位点纯合相关的更严重的表型。
