Drosophila Proteins Related to Vertebrate DNA (5-Cytosine) Methyltransferases

DNA methylation at CpG residues is closely associated with a number of biological processes during vertebrate development. Unlike the vertebrates, however, several invertebrate species, including the Drosophila, do not have apparent DNA methylation in their genomes. Nor have there been reports on a...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 96; no. 21; pp. 11940 - 11945
Main Authors: Hung, Ming-Shiu, Karthikeyan, Narayanan, Huang, Bauling, Koo, Hshi-Chi, Kiger, John, C.-K. James Shen
Format: Journal Article
Language:English
Published: United States National Academy of Sciences of the United States of America 12-10-1999
National Acad Sciences
The National Academy of Sciences
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Summary:DNA methylation at CpG residues is closely associated with a number of biological processes during vertebrate development. Unlike the vertebrates, however, several invertebrate species, including the Drosophila, do not have apparent DNA methylation in their genomes. Nor have there been reports on a DNA (5-cytosine) methyltransferase (CpG MTase) found in these invertebrates. We now present evidence for two CpG MTase-like proteins expressed in Drosophila cells. One of these, DmMTR1, is a protein containing peptide epitopes immunologically related to the conserved motifs I and IV in the catalytic domain of the mammalian dnmt1. DmMTR1 has an apparent molecular mass of 220 kDa and, similar to mammalian dnmt1, it also interacts in vivo with the proliferating cell nuclear antigen. During interphase of the syncytial Drosophila embryos, the DmMTR1 molecules are located outside the nuclei, as is dnmt1 in the mouse blastocyst. However, DmMTR1 appears to be rapidly transported into, and then out of the nuclei again, as the embryos undergo mitotic waves. Immunofluorescent data indicate that DmMTR1 molecules "paint" the whole set of condensed Drosophila chromosomes throughout the mitotic phase, suggesting they may play an essential function in the cell-cycle regulated condensation of the Drosophila chromosomes. Through search in the genomic database, we also have identified a Drosophila polypeptide, DmMT2, that exhibits high sequence homology to the mammalian dnmt2 and the yeast CpG MTase homolog pmt1. The expression of DmMT2 appears to be developmentally regulated. We discuss the evolutionary and functional implications of the discovery of these two Drosophila proteins related to mammalian CpG MTases.
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To whom reprint requests should be addressed. E-mail: ckshen@ccvax.sinica.edu.tw.
M.-S.H. and N.K. contributed equally to this work.
Communicated by Stanley M. Gartler, University of Washington, Seattle, WA
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.96.21.11940