An Unstable Triplet Repeat in a Gene Related to Myotonic Muscular Dystrophy

Ying‐Hui Fu; Antonio Pizzuti; Raymond G. Fenwick; Julia King; Sudha Rajnarayan; Patrick W. Dunne; J. Dubel; Nasser Ghanem; Tetsuo Ashizawa; Peter J. de Jong; Bé Wieringa; Robert G. Korneluk; M. Benjamin Perryman; Henry F. Epstein; C. Thomas Caskey

doi:10.1126/science.1546326

An Unstable Triplet Repeat in a Gene Related to Myotonic Muscular Dystrophy

Ying‐Hui Fu(Baylor College of Medicine), Antonio Pizzuti(Baylor College of Medicine), Raymond G. Fenwick(Baylor College of Medicine), Julia King(Baylor Genetics), Sudha Rajnarayan(Baylor College of Medicine), Patrick W. Dunne(Baylor College of Medicine), J. Dubel(Baylor College of Medicine), Nasser Ghanem(Baylor College of Medicine), Tetsuo Ashizawa(Baylor College of Medicine), Peter J. de Jong(Lawrence Livermore National Laboratory), Bé Wieringa(Radboud University Nijmegen), Robert G. Korneluk(Children's Hospital of Eastern Ontario), M. Benjamin Perryman(Baylor College of Medicine), Henry F. Epstein(Baylor College of Medicine), C. Thomas Caskey(Baylor Genetics)

Science

March 6, 1992

10.1126/science.1546326

Cited by 1,460

Abstract

Synthetic oligonucleotides containing GC-rich triplet sequences were used in a scanning strategy to identify unstable genetic sequences at the myotonic dystrophy (DM) locus. A highly polymorphic GCT repeat was identified and found to be unstable, with an increased number of repeats occurring in DM patients. In the case of severe congenital DM, the paternal triplet allele was inherited unaltered while the maternal, DM-associated allele was unstable. These studies suggest that the mutational mechanism leading to DM is triplet amplification, similar to that occurring in the fragile X syndrome. The triplet repeat sequence is within a gene (to be referred to as myotonin-protein kinase), which has a sequence similar to protein kinases.

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