Frequent Germline Mutations and Somatic Repeat Instability in DNA Mismatch-Repair-Deficient Caenorhabditis elegans

Frequent Germline Mutations and Somatic Repeat Instability in DNA Mismatch-Repair-Deficient Caenorhabditis elegans

Marcel Tijsterman^a, Joris Pothof^a, and Ronald H. A. Plasterk^a
^a Hubrecht Laboratory, Centre for Biomedical Genetics, 3584 CT, Utrecht, The Netherlands

Corresponding author: Ronald H. A. Plasterk, Uppsalalaan 8, 3584 CT, Utrecht, The Netherlands., plasterk{at}niob.knaw.nl (E-mail)

Communicating editor: B. J. MEYER

Mismatch-repair-deficient mutants were initially recognizedas mutation-prone derivatives of bacteria, and later mismatchrepair deficiency was found to predispose humans to colon cancers(HNPCC). We generated mismatch-repair-deficient Caenorhabditiselegans by deleting the msh-6 gene and analyzed the fidelityof transmission of genetic information to subsequent generations.msh-6-defective animals show an elevated level of spontaneousmutants in both the male and female germline; also repeatedDNA tracts are unstable. To monitor DNA repeat instability insomatic tissue, we developed a sensitive system, making useof heat-shock promoter-driven lacZ transgenes, but with a repeatthat puts this reporter gene out of frame. In genetic msh-6-deficientanimals lacZ⁺ patches are observed as a result of somatic repeatinstability. RNA interference by feeding wild-type animals dsRNAhomologous to msh-2 or msh-6 also resulted in somatic DNA instability,as well as in germline mutagenesis, indicating that one canuse C. elegans as a model system to discover genes involvedin maintaining DNA stability by large-scale RNAi screens.

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