fshd连锁位点在4q35上的D4F104S1 (p13E-11)在10qter上有同源物。

Muscle & nerve. Supplement Pub Date : 1995-01-01

E Bakker, C Wijmenga, R H Vossen, G W Padberg, J Hewitt, M van der Wielen, K Rasmussen, R R Frants

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引用次数: 0

摘要

面部肩胛骨肱肌营养不良症(FSHD)最近被证明与使用探针p13E-11 (D4F104S1)检测到的缺失有关。虽然这些缺失存在于大的、高度多态性的限制性片段(20-300 kb)中，但“突变”片段通常短于28 kb，可以用常规琼脂糖凝胶电泳检测到。然而，等位基因的完整可视化需要脉冲场凝胶电泳(PFGE)。家族研究表明，p13E-11在这个大小范围内检测到两个非等位基因位点，其中只有一个来自染色体4q35。通过连锁分析，我们将另一个p13E-11位点定位在CEPH家系的第10季度染色体上。了解这两个基因座的位置可以提高诊断的可靠性，因为“小”EcoRI片段的确切起源可以通过单倍型确定。由于FSHD表现出遗传异质性，因此该10qter位点成为第二个FSHD位点的候选位点。然而，对一个大的4号染色体非连锁FSHD家族的分析没有提供在第10季度染色体上连锁的证据。

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The FSHD-linked locus D4F104S1 (p13E-11) on 4q35 has a homologue on 10qter.

Facioscapulohumeral muscular dystrophy (FSHD) has recently been shown to be associated with deletions that are detectable using probe p13E-11 (D4F104S1). Although these deletions reside within large, highly polymorphic restriction fragments (20-300 kb), the "mutant" fragment is usually shorter than 28 kb and can routinely be detected using conventional agarose gel electrophoresis. Yet, the complete visualization of the alleles requires pulsed-field gel electrophoresis (PFGE). Family studies showed that p13E-11 detects two nonallelic loci in this size range, only one of which originates from chromosome 4q35. We have assigned the other p13E-11 locus to chromosome 10qter by linkage analysis in CEPH pedigrees. Knowing the location of both loci improves the diagnostic reliability, as the exact origin of "small" EcoRI fragments can be determined by haplotyping. Since FSHD shows genetic heterogeneity, this 10qter locus became an interesting candidate to be the second FSHD locus. However, analysis of a large chromosome 4-unlinked FSHD family did not provide evidence for linkage on chromosome 10qter.

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Muscle & nerve. Supplement

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