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In vivo expansion of trinucleotide repeats yields plasmid and YAC constructs for targeting and transgenesis
Authors:Sopher B L  Myrick S B  Hong J Y  Smith A C  La Spada A R
Affiliation:Department of Laboratory Medicine, University of Washington Medical Center, Box 357110, Room NW 120, WA, Seattle 98195-7110, USA.
Abstract:Production of mouse models of inherited neurodegenerative diseases is an important step towards understanding the mechanism of neurotoxicity and for testing potential therapies. We are interested in creating a mouse model for X-linked spinal and bulbar muscular atrophy (SBMA), a neuromuscular disorder caused by expansion of a CAG repeat within the androgen receptor (AR) gene. To permit generation of mice that will show a SBMA phenotype within their life span, we decided to obtain a yeast artificial chromosome (YAC) carrying the AR gene and introduce CAG repeat mutations numbering 100 or more triplets. SBMA patients with more than 70 CAGs have never been observed; therefore, we chose to expand a 59 CAG repeat tract in vivo in Escherichia coli. Although we set out to expand this repeat tract using a recombination paradigm involving two plasmid co-propagation, we did not observe large expansions. We were instead able to incrementally generate repeat tracts from 100 to 200 CAGs in a yeast integrating plasmid vector by taking advantage of replication instability. In the course of our experiments that yielded these CAG repeat tracts, we evaluated the role of repeat orientation, vector co-propagation, and recA function on the expansion process. We then used one of the yeast integrating vectors to successfully produce an AR YAC construct carrying 100 CAG repeats. AR YAC CAG100 will serve as a valuable reagent for the production of a SBMA mouse.
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