S A Woolley, S E Hayes, M R Shariflou, F W Nicholas, C E Willet, B A O'Rourke, I Tammen
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Here we report the identification of a likely disease-causing variant and propose an ovine model for human 3M syndrome-2.</p><p><strong>Results: </strong>Eight positional candidate genes were identified among the 39 genes in the approximately 1 Mb interval to which the disease was mapped previously. Obscurin like cytoskeletal adaptor 1 (OBSL1) was selected as a strong positional candidate gene based on gene function and the resulting phenotypes observed in humans with mutations in this gene. Whole genome sequencing of an affected lamb (BCRHS3) identified a likely causal variant ENSOARG00000020239:g.220472248delC within OBSL1. Sanger sequencing of seven affected, six obligate carrier, two phenotypically unaffected animals from the original flock and one unrelated control animal validated the variant. A genotyping assay was developed to genotype 583 animals from the original flock, giving an estimated allele frequency of 5%.</p><p><strong>Conclusions: </strong>The identification of a likely disease-causing variant resulting in a frameshift (p.(Val573Trpfs*119)) in the OBSL1 protein has enabled improved breeding management of the implicated flock. 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引用次数: 3
摘要
背景:短颈、心脏肥大和肾脏发育不全综合征(BCRHS, OMIA 001595-9940)是一种先前报道的澳大利亚美利奴绵羊隐性遗传疾病。受影响的羔羊是死产的,有各种先天性缺陷,正如疾病的名称所反映的那样,还有身材矮小,头盖骨短而宽,胸腔小,肋骨细,胸短。BCRHS表型与某些人类矮小综合征,特别是人类3M综合征-2相似。在这里,我们报告了一种可能的致病变异的鉴定,并提出了人类3M综合征-2的羊模型。结果:在39个基因中鉴定出8个位置候选基因,这些基因在之前绘制的大约1mb的间隔内。基于在该基因突变的人类中观察到的基因功能和由此产生的表型,OBSL1被选为强位置候选基因。对一只受影响的羔羊(BCRHS3)进行全基因组测序,发现了一个可能的致病变异ENSOARG00000020239:g。OBSL1内的220472248delC。对7只受感染动物、6只专性携带者、2只表型未受影响的原群动物和1只不相关的对照动物进行Sanger测序,证实了该变异。采用基因分型方法对583只原禽进行基因分型,估计等位基因频率为5%。结论:鉴定出一种可能导致OBSL1蛋白移码(p.(Val573Trpfs*119))的致病变异,有助于改善相关鸡群的育种管理。鉴于BCRHS的载体公羊精液的可用性,人类3M综合征的羊模型和随后的治疗研究的机会是有希望的。
Molecular basis of a new ovine model for human 3M syndrome-2.
Background: Brachygnathia, cardiomegaly and renal hypoplasia syndrome (BCRHS, OMIA 001595-9940 ) is a previously reported recessively inherited disorder in Australian Poll Merino/Merino sheep. Affected lambs are stillborn with various congenital defects as reflected in the name of the disease, as well as short stature, a short and broad cranium, a small thoracic cavity, thin ribs and brachysternum. The BCRHS phenotype shows similarity to certain human short stature syndromes, in particular the human 3M syndrome-2. Here we report the identification of a likely disease-causing variant and propose an ovine model for human 3M syndrome-2.
Results: Eight positional candidate genes were identified among the 39 genes in the approximately 1 Mb interval to which the disease was mapped previously. Obscurin like cytoskeletal adaptor 1 (OBSL1) was selected as a strong positional candidate gene based on gene function and the resulting phenotypes observed in humans with mutations in this gene. Whole genome sequencing of an affected lamb (BCRHS3) identified a likely causal variant ENSOARG00000020239:g.220472248delC within OBSL1. Sanger sequencing of seven affected, six obligate carrier, two phenotypically unaffected animals from the original flock and one unrelated control animal validated the variant. A genotyping assay was developed to genotype 583 animals from the original flock, giving an estimated allele frequency of 5%.
Conclusions: The identification of a likely disease-causing variant resulting in a frameshift (p.(Val573Trpfs*119)) in the OBSL1 protein has enabled improved breeding management of the implicated flock. The opportunity for an ovine model for human 3M syndrome and ensuing therapeutic research is promising given the availability of carrier ram semen for BCRHS.
期刊介绍:
BMC Genetics is an open access, peer-reviewed journal that considers articles on all aspects of inheritance and variation in individuals and among populations.
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