Journal article
Effective detection of corrected dystrophin loci in mdx mouse myogenic precursors
M Todaro, A Quigley, M Kita, J Chin, K Lowes, AJ Kornberg, MJ Cook, R Kapsa
Human Mutation | WILEY-LISS | Published : 2007
DOI: 10.1002/humu.20494
Open access
Abstract
Targeted corrective gene conversion (TCGC) holds much promise as a future therapy for many hereditary diseases in humans. Mutation correction frequencies varying between 0.0001% and 40% have been reported using chimeraplasty, oligoplasty, triplex-forming oligonucleotides, and small corrective PCR amplicons (CPA). However, PCR technologies used to detect correction events risk either falsely indicating or greatly exaggerating the presence of corrected loci. This is a problem that is considerably exacerbated by attempted improvement of the TCGC system using high corrective nucleic acid (CNA) to nuclear ratios. Small fragment homologous replacement (SFHR)-mediated correction of the exon 23 dyst..
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