A frameshift insertion in SGK3 leads to recessive hairlessness in Scottish Deerhounds #vetmedFIN #tutkimus https://t.co/oiwwUbaVVy
RT @GeneCodes1: Whole genome analysis of the Scottish Deerhound lead to the characterization of the SGK3 gene as a candidate gene for study…
ディアハウンドに「ヘアレス」が出るという衝撃の事実。知らなかった〜。劣性遺伝で稀に出るそう。その原因遺伝子が特定され、どうやら人の脱毛症の原因遺伝子も同じかもしれないと。とりあえずSDは繁殖前の遺伝子検査でヘアレスを避けられるようになりますね。 https://t.co/yOmDupTrEn
RT @GeneCodes1: Whole genome analysis of the Scottish Deerhound lead to the characterization of the SGK3 gene as a candidate gene for study…
RT @GeneCodes1: Whole genome analysis of the Scottish Deerhound lead to the characterization of the SGK3 gene as a candidate gene for study…
RT @GeneCodes1: Whole genome analysis of the Scottish Deerhound lead to the characterization of the SGK3 gene as a candidate gene for study…
Whole genome analysis of the Scottish Deerhound lead to the characterization of the SGK3 gene as a candidate gene for studying alopecia in humans using #Sequencher. https://t.co/9NNcjlmG90 @helsinkiuni @FolkhalsanRC #Alopecia
A frameshift insertion in SGK3 leads to recessive hairlessness in in Scottish Deerhounds: a candidate gene for human alopecia conditions. Nice work Marjo ! https://t.co/lkZGMu0IA0
A frameshift insertion in SGK3 leads to recessive hairlessness in Scottish Deerhounds: a candidate gene for human alopecia conditions. #amchelsinki #tutkimus https://t.co/oiwwUbaVVy