Somatic mutations, DNA methylation, and expression of DNA repair genes in Arabidopsis thaliana treated with 5-azacytidine

2019 
An inhibitor of DNA methylation 5-azacytidine (5A) is a chemical analog of the nucleoside cytidine. This study investigated the influence of 5A-induced DNA hypomethylation on the accumulation of somatic DNA mutations (nucleotide substitutions, indels) in the Actin2 3′ untranslated region, nuclear internal transcribed spacer ITS1-5.8rRNA-ITS2, and the ribulose-1,5-bisphosphate carboxylase/oxygenase gene of Arabidopsis thaliana and analyzed concurrent changes in the expression of DNA methyltransferase and DNA repair genes. The 5A treatment (20 mg per 100 g of soil) decreased DNA methylation, and the detected 5A-induced demethylation was associated with the up-regulation of the DNA methyltransferase genes: chromomethylase AtCMT3, methyltransferase AtMETI, and domains rearranged methyltransferases AtDRM1 and AtDRM2. Cultivation of plants in the presence of 5A led to a considerable increase in the number of single nucleotide substitutions in the analyzed DNA regions of 5A-treated A. thaliana. The 5A treatment significantly increased the transcriptions of 7 DNA repair genes (endonuclease AtARP, DNA demethylases AtDME and AtDML2, DNA glycosylase AtMBD4, DNA damage-binding protein AtDDB1, and photolyases AtUVR2 and AtUVR3) out of the 17 analyzed genes from the base excision repair, nucleotide excision repair, and photoreactivation pathways. However, 5A decreased the transcription of DNA 3′-phosphatase AtZDP, DNA repair protein AtRad23a, mismatch repair proteins AtMsh2 and AtMsh3. It is possible that the changes in the transcription of the DNA repair genes contributed to the detected increase in the number of single nucleotide substitutions that accumulated in the 5A-treated A. thaliana. Taken together, the data indicate that there is an interaction between the processes of DNA methylation and mutation accumulation.
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