AMME综合征中缺失的AMMECR1和FACL4基因小鼠同源基因的鉴定和表征:Xq22.3和MmuXF1-F3的同源基因。

F Vitelli, I Meloni, S Fineschi, F Favara, C Tiziana Storlazzi, M Rocchi, A Renieri
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引用次数: 12

摘要

连续基因缺失综合征AMME以Alport综合征、中脸发育不全、智力低下和椭圆细胞增多症为特征,由Xq22.3基因缺失引起,包括COL4A5、FACL4和AMMECR1等多个基因。我们现在已经克隆了小鼠Facl4和Ammecr1基因,并将这两个新的小鼠基因定位到小鼠染色体X带F1-F3。小鼠和人类同源基因在氨基酸水平上的同源性分别为96.5% (FACL4)和95.2% (AMMECR1),并保留了各自的亚细胞定位信号。我们的结果表明Facl4和Ammecr1是人类基因的真正的鼠同源物。此外,Facl4和Ammecr1到MmuXF1-F3的映射表明,这个子区间是同源的,至少对于Xq22的一部分来说是同源的。3.
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Identification and characterization of mouse orthologs of the AMMECR1 and FACL4 genes deleted in AMME syndrome: orthology of Xq22.3 and MmuXF1-F3.

The contiguous gene deletion syndrome AMME is characterized by Alport syndrome, midface hypoplasia, mental retardation and elliptocytosis and is caused by a deletion in Xq22.3, comprising several genes including COL4A5, FACL4 and AMMECR1. We have now cloned the murine Facl4 and Ammecr1 genes and have mapped both novel murine genes to mouse chromosome X band F1-F3. The murine and human orthologs show 96.5% (FACL4) and 95.2% (AMMECR1) identity at the amino acid level, with conservation of the respective putative subcellular localization signals. Our results show that Facl4 and Ammecr1 are the true murine orthologs of the human genes. Furthermore, the mapping of Facl4 and Ammecr1 to MmuXF1-F3 suggests that this subinterval is orthologous, at least for a portion of Xq22. 3.

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