Genetic cause of a juvenile form of Sandhoff disease. Abnormal splicing of beta-hexosaminidase beta chain gene transcript due to a point mutation within intron 12 - PubMed (original) (raw)

. 1989 Mar 25;264(9):5155-8.

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Genetic cause of a juvenile form of Sandhoff disease. Abnormal splicing of beta-hexosaminidase beta chain gene transcript due to a point mutation within intron 12

T Nakano et al. J Biol Chem. 1989.

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Abstract

Abnormal beta-hexosaminidase beta chain cDNA clones were isolated from a library constructed from cultured fibroblasts of a patient with a juvenile form of Sandhoff disease (genetic beta-hexosaminidase A and B deficiency). Sequence analysis of a cDNA clone isolated from these fibroblasts contained an extra 24-base segment between exons 12 and 13. This segment was identified as the 3' terminus of intron 12. The remainder of the coding sequence was completely normal. The same 24-base insertion was found in four additional clones by sequencing. Restriction mapping analysis of seven other clones was consistent with the presence of the same 24-base intron 12 segment. This insertion is inframe and adds 8 amino acids between amino acids 491 and 492 of the primary sequence of the normal enzyme protein. It is located only 5 amino acids away from a possible glycosylation site. The finding is consistent with the slightly larger than normal size of the beta subunit precursor protein observed by immunoprecipitation. No normally spliced mRNA was detected. Gene amplification by the polymerase chain reaction and subsequent sequencing of genomic DNA indicated that the patient was a compound heterozygote. In one allele, there was a single nucleotide transition from normal G to A at 26 bases from the 3' terminus of intron 12. This mutation generates a consensus sequence for the 3' splice site for an intron, CAG/G, and thus explains the abnormal mRNAs that retain 24 bases of the 3' terminus of intron 12. The intron 12 and flanking exons 12 and 13 sequences were normal in the other allele, which is a priori also genetically abnormal. The other mutant allele therefore is likely to be of an mRNA-negative type.

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