Tümer Z, Lund C, Tolshave J, Vural B, Tønnesen T, Horn N
The John F. Kennedy Institute, Copenhagen, Denmark.
Am J Hum Genet. 1997 Jan;60(1):63-71.
Genomic DNA of 41 unrelated patients affected with the classical severe form of Menkes disease was investigated for point mutations in the ATP7A gene (previously designated as the "MNK" gene). Using SSCP analysis and direct sequencing of the exons amplified by PCR, we identified 41 different mutations, including 19 insertions/deletions, 10 nonsense mutations, 4 missense mutations, and 8 splice-site alterations. Approximately 90% of the mutations were predicted to result in the truncation of the protein (ATP7A). In 20 patients the mutations were within exons 7-10, and half of these mutations affected exon 8. Furthermore, five alterations were observed within the 6-bp sequence at the splice-donor site of intron 8, which would be predicted to affect the efficiency of splicing of exon 8. Although a specific function has not been attributed to the protein region encoded by this exon, this region may be important in serving as a "stalk" joining the metal-binding domains and the ATPase core. The present findings not only help us in understanding the underlying genetic defect but are invaluable data especially for carrier detection and prenatal diagnosis of this lethal disorder.
对41例患有典型严重型门克斯病的无亲缘关系患者的基因组DNA进行了研究,以检测ATP7A基因(以前称为“MNK”基因)中的点突变。通过单链构象多态性(SSCP)分析和对PCR扩增的外显子进行直接测序,我们鉴定出41种不同的突变,包括19种插入/缺失、10种无义突变、4种错义突变和8种剪接位点改变。预计约90%的突变会导致蛋白质(ATP7A)截短。在20例患者中,突变位于外显子7至10内,其中一半的突变影响外显子8。此外,在内含子8的剪接供体位点的6碱基序列内观察到5种改变,预计这些改变会影响外显子8的剪接效率。尽管尚未赋予该外显子编码的蛋白质区域特定功能,但该区域可能作为连接金属结合域和ATP酶核心的“柄”而具有重要作用。目前的研究结果不仅有助于我们理解潜在的遗传缺陷,而且对于这种致命疾病的携带者检测和产前诊断而言是非常宝贵的数据。
