DNA methylation of three 5' C-C-G-G 3' sites in the promoter and 5' region inactivate the E2a gene of adenovirus type 2

K. Dieter Langner, L. Vardimon, D. Renz, W. Doerfler

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81 Scopus citations

Abstract

The E2a gene of human adenovirus type 2 (Ad2) encodes the 72-kilodalton DNA-binding protein. We previously described perfect inverse correlations between the methylation of all 5' C-C-G-G 3' sequences in the Ad2 E2a gene in virus-transformed hamster cells containing viral DNA sequences in an integrated state and the extent to which this gene is expressed. We subsequently showed that in vitro methylatio of all 14 5' C-C-G-G 3' sequences in the cloned E2a gene by prokaryotic Hpa II DNA methyltransferase leads to transcriptional inactivation after microinjection into Xenopus laevis oocytes. The unmethylated cloned E2a gene is expressed in these cells. We report here the construction of partly methylated clones of the E2a gene. In the promoter (5')-methylated construct, three 5' C-C-G-G 3' sequences at the 5' end of the subclone were methylated. One of these sites is located 215 base pairs (bp) upstream (bp 26,169 of Ad2 DNA), and two sites are located 5 and 23 bp downstream from the cap site (bp 25,931 and 25,949 of Ad2 DNA) of the E2a gene. This construct was transcriptionally inactive upon microinjection into nuclei of X. laevis oocytes. In the gene (3')-methylated construct, 11 5' C-C-G-G 3' sequences in the main part of the transcribed gene region were methylated in vitro. This construct was transcribed in X. laevis oocytes, and at least some of the Ad2-specific RNA synthesized was initiated at the same sites as in Ad2-infected human KB cells. Both mock-methylated constructs were transcribed into Ad2-specific RNA in X. laevis oocytes. These results demonstrate that DNA methylations at or close to the promoter and 5- end of the E2a gene cause transcriptional inactivation. Perhaps only one methyl group would be adequate for inactivation; in vivo methylation of more than one cytosine may be a form of safeguard or redundancy.

Original languageEnglish
Pages (from-to)2950-2954
Number of pages5
JournalProceedings of the National Academy of Sciences of the United States of America
Volume81
Issue number10 I
DOIs
StatePublished - 1984
Externally publishedYes

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