ABSTRACT Accurate transcription is required for the faithful expression of genetic information. To provide insight into the molecular mechanisms that control the fidelity of transcription, we analyzed the landscape of transcription errors in human embryonic stem cells. These measurements provide the first reasonable estimate of the fidelity of transcription in human cells and identify multiple genetic and epigenetic factors that control its accuracy. In addition, we developed a new reporter mouse to identify cell types and tissues that commit these errors the most. These experiments revealed that CA1 and dentate gyrus neurons are highly sensitive to transcriptional mutagenesis, lending new support to the hypothesis that transcription errors play a role in the progression of Alzheimer’s disease. Taken together, these experiments provide unprecedented insight into the fidelity of gene expression in human cells and the molecular mechanisms that govern the central dogma of life.
Claire Chung, Bert M. Verheijen, Xinmin Zhang, Biao Huang, Aeowynn J. Coakley, Eric McGann, E. Wade, Olivia Dinep-Schneider, J. LaGosh, Maria‐Eleni Anagnostou, Stephen Simpson, Kelly Thomas, Mimi Ernst, Allison Rattray, Michael E Lynch, Mikhail Kashlev, Bérénice A. Benayoun, Zhongwei Li, Jeffrey N. Strathern, Jean-François Goût, Marc Vermulst
Clark Fritsch, Jean-François Goût, Suraiya Haroon, Atif Towheed, Claire Chung, J. LaGosh, Eric McGann, Xinmin Zhang, Young‐Han Song, Stephen Simpson, Prakroothi S. Danthi, Bérénice A. Benayoun, Douglas C. Wallace, W. Kelley Thomas, Michael E Lynch, Marc Vermulst
Benjamin G. Gowen, Bryan Chim, Caleb Marceau, Trever T. Greene, Patrick Burr, Jeanmarie R. Gonzalez, Charles R. Hesser, Peter A. Dietzen, Teal Russell, Alexandre Iannello, Laurent Coscoy, Charles L. Sentman, Jan E. Carette, Stefan A. Muljo, David H Raulet
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