Non-ATG–initiated translation directed by microsatellite expansions

Zu, Tao; Gibbens, Brian B.; Doty, Noelle S.; Gomes-Pereira, Mário; Huguet, Aline; Stone, Matthew D.; Margolis, Jamie; Peterson, Mark S.; Markowski, Todd W.; Ingram, Melissa; Nan, Zhenhong; Forster, Colleen L.; Low, Walter C.; Schoser, Benedikt; Somia, Nikunj V.; Clark, H. Brent; Schmechel, Stephen C.; Bitterman, Peter B.; Gourdon, Geneviève; Swanson, Maurice S.; Moseley, Melinda L.; Ranum, Laura P.W.

doi:10.1073/pnas.1013343108

articleProceedings of the National Academy of SciencesDec 20, 2010BRONZE OA

Non-ATG–initiated translation directed by microsatellite expansions

TZTao Zu BBBrian B. Gibbens NSNoelle S. Doty MGMário Gomes-Pereira AHAline Huguet

University of Minnesota Medical Center · University of Minnesota, Duluth · +11 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Trinucleotide expansions cause disease by both protein- and RNA-mediated mechanisms. Unexpectedly, we discovered that CAG expansion constructs express homopolymeric polyglutamine, polyalanine, and polyserine proteins in the absence of an ATG start codon. This repeat-associated non-ATG translation (RAN translation) occurs across long, hairpin-forming repeats in transfected cells or when expansion constructs are integrated into the genome in lentiviral-transduced cells and brains. Additionally, we show that RAN translation across human spinocerebellar ataxia type 8 (SCA8) and myotonic dystrophy type 1 (DM1) CAG expansion transcripts results in the accumulation of SCA8 polyalanine and DM1 polyglutamine expansion…

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Topics & keywords

Topics

Keywords

Trinucleotide repeat expansion
Myotonic dystrophy
Spinocerebellar ataxia
Biology
Translation (biology)
Genetics
Gene
Cell biology

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