小鼠的粗糙皮毛(ruf)突变是髓鞘蛋白零样3(Mpzl3)的等位基因

Kenneth M. Palanza, Legairre A. Radden, M. Rabah, Tu V. Nguyen, Audra C. Kohm, M. E. Connor, Morgan M C Ricci, Jachius J. Stewart, Sidney Eragene, T. R. King
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引用次数: 2

摘要

摘要背景:隐性粗糙毛突变(ruf)——因纯合子毛被蓬乱、油腻而得名——以前已被定位在小鼠9号染色体上。然而,需要将ruf分配给特定基因,以促进突变表型的完整分子分析。结果:为了建立更精确的ruf定位(作为定位克隆的基础),从一个大型回交家族中分离的DNA在9号染色体上进行了微卫星和单核苷酸标记的分型。该分析限制了ruf在仅四个已知在皮肤中表达的基因两侧的位点之间的位置,其中一个位点——Mpzl3,髓鞘蛋白零样3——在工程和自发零等位基因纯合的小鼠中产生类似的毛发表型。ruf突变体和Mpzl3rc突变(控制一种称为粗糙皮毛的隐性表型)杂合子小鼠之间的杂交产生的后代显示出缠结、潮湿的皮毛,表明ruf是Mpzl3的突变等位基因。然而,Mpzl3启动子、外显子和剪接连接的序列分析显示没有突变特异性DNA缺陷。结论:ruf是Mpzl3的突变等位基因。有了基因分配,现在可以更全面地描述粗糙皮毛变体的特征,以加深我们对Mpzl3在正常皮肤发育和功能、肝脏甘油三酯合成、体重调节、能量和葡萄糖稳态中的作用的理解;以及对相关的人类疾病进行建模。
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The rough fur (ruf) mutation in mice is an allele of myelin protein zero-like 3 (Mpzl3)
Abstract Background: The recessive rough fur mutation (ruf)―named for the unkempt, greasy appearance of the hair coat in homozygotes―has previously been mapped on mouse Chromosome 9. However, the assignment of ruf to a particular gene is needed to facilitate a complete molecular analysis of the mutant phenotype. Results: To establish a more refined location for ruf (as a basis for positional cloning) DNA isolated from a large backcross family was typed for microsatellite and single-nucleotide markers on Chromosome 9. This analysis restricted the location of ruf between sites that flank only four genes known to be expressed in skin, one of which―Mpzl3, for myelin protein zero-like 3―generates a similar hair phenotype in mice homozygous for engineered and spontaneous null-alleles. A cross between ruf mutants and mice heterozygous for the Mpzl3rc mutation (which controls a recessive phenotype called rough coat) produced offspring that displayed matted, damp-looking fur, indicating that ruf is a mutant allele of Mpzl3. However, sequence analysis of the Mpzl3 promoter, exons and splice junctions revealed no mutant-specific DNA defect. Conclusion: The results presented indicate that ruf is a mutant allele of Mpzl3. With a genetic assignment in hand, the rough fur variant can now be more fully characterized to advance our understanding of Mpzl3’s role in normal skin development and function, hepatic triglyceride synthesis, weight regulation, energy and glucose homeostasis; and to model-related human disorders.
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Cogent Biology
Cogent Biology MULTIDISCIPLINARY SCIENCES-
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