Abstract

Lesch-Nyhan (LN) syndrome is caused by a severe genetic deficiency of hypoxanthine phosphoribosyltransferase (HPRT), which is characterized by neuropsychological disorders (including self-mutilation) and hyperuricemia. The human HPRT gene is located on the X chromosome and its length is 57 kb1. The coding sequence of 654 bp is divided into 9 exons. Although there is great heterogeneity in the known hprt mutations associated with LN syndrome, approximately 85% of LN mutations are located within the cording region or the splicing sequences of the HPRT gene, which can be easily predicted by examination of HPRT cDNA. However, the remaining 15% are large genomic alterations such as total or partial gene deletions and duplications, which often does not produce HPRT mRNA, and it is difficult to determine mutational breakpoints due to large size of introns. According to our strategy for analysis of LN mutations (Fig. l), we have identified three independent base substitutions in three Japanese LN patients and one identical large genomic deletion in two unrelated Japanese

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