Molecular genetic analysis of a new form of spinocerebellar ataxia in a Chinese Han family.

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The pathological changes of spinocerebellar ataxias (SCAs ), mainly include the degeneration of the cerebellum , spinal cord and brainstem . To investigate the genotype of a three -generation Chinese Han pedigree with an autosomal dominant SCA for clinical diagnosis and genetic counseling , direct mutation test and linkage analysis were performed . SCA 1 -8 , SCA 10 -14 , SCA 17 , SCA 27 and dentatorubral-pallidoluysian atrophy (DRPLA ) were excluded by mutation analysis while SCA 15 /16 /29 , SCA 18 , SCA 19 /22 , SCA 20 , SCA 21 , SCA 23 , SCA 25 , SCA 26 , SCA 28 and SCA 30 were excluded by linkage analysis . Therefore , we excluded all of the previously identified SCA-associated genes and loci . Interestingly , one patient (III -13 ) had a novel mutation of the pleckstrin homology domain containing , family G (with RhoGef domain ) member 4 gene (PLEKHG 4 ), and another patient (II -7 ) had a novel mutation of the beta -III spectrin gene (SPTBN 2 ) (Genbank accession numbers FJ 905766 and FJ 811850 , respectively ). However , mutations of the PLEKHG 4 gene and the SPTBN 2 gene are not the causes of SCAs in this family . We conclude that this autosomal dominant cerebellar ataxia family is likely a new genotype of SCAs .