A new explanation for recessive myotonia congenital: Exon deletions and duplications in CLCN1

D. L. Raja Rayan, A. Haworth, R. Sud, E. Matthews, D. Fialho, J. Burge, S. Portaro, S. Schorge, K. Tuin, P. Lunt, M. McEntagart, A. Toscano, M. B. Davis, M. G. Hanna

Research output: Contribution to journalArticlepeer-review


Objective: To assess whether exon deletions or duplications in CLCN1 are associated with recessive myotonia congenita (MC). Methods: We performed detailed clinical and electrophysiologic characterization in 60 patients with phenotypes consistent with MC.DNAsequencing ofCLCN1followed by multiplex ligation-dependent probe amplification to screen for exon copy number variation was undertaken in all patients. Results: Exon deletions or duplications in CLCN1 were identified in 6% of patients with MC. Half had heterozygous exonic rearrangements. The other 2 patients (50%), with severe disabling infantile onset myotonia, were identified with both a homozygous mutation, Pro744Thr, which functional electrophysiology studies suggested was nonpathogenic, and a triplication/homozygous duplication involving exons 8-14, suggesting an explanation for the severe phenotype. Conclusions: These data indicate that copy number variation in CLCN1 may be an important cause of recessive MC. Our observations suggest that it is important to check for exon deletions and duplications as part of the genetic analysis of patients with recessive MC, especially in patients in whom sequencing identifies no mutations or only a single recessive mutation. These results also indicate that additional, as yet unidentified, genetic mechanisms account for cases not currently explained by either CLCN1 point mutations or exonic deletions or duplications.

Original languageEnglish
Pages (from-to)1953-1958
Number of pages6
Issue number24
Publication statusPublished - Jun 12 2012

ASJC Scopus subject areas

  • Clinical Neurology
  • Arts and Humanities (miscellaneous)


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