Abstract
The Dnmt3a DNA methyltransferase has been shown to bind cooperatively to DNA and to form large multimeric protein/DNA fibers. However, it has also been reported to methylate DNA in a processive manner, a property that is incompatible with protein/DNA fiber formation. We show here that the DNA methylation rate of Dnmt3a increases more than linearly with increasing enzyme concentration on a long DNA substrate, but not on a short 30-mer oligonucleotide substrate. We also show that addition of a catalytically inactive Dnmt3a mutant, which carries an amino acid exchange in the catalytic center, increases the DNA methylation rate by wild type Dnmt3a on the long substrate but not on the short one. In agreement with this finding, preincubation experiments indicate that stable protein/DNA fibers are formed on the long, but not on the short substrate. In addition, methylation experiments with substrates containing one or two CpG sites did not provide evidence for a processive mechanism over a wide range of enzyme concentrations. These data clearly indicate that Dnmt3a binds to DNA in a cooperative reaction and that the formation of stable protein/DNA fibers increases the DNA methylation rate. Fiber formation occurs at low μm concentrations of Dnmt3a, which are in the range of Dnmt3a concentrations in the nucleus of embryonic stem cells. Understanding the mechanism of Dnmt3a is of vital importance because Dnmt3a is a hotspot of somatic cancer mutations one of which has been implicated in changing Dnmt3a processivity.
Highlights
Dnmt3a has been reported to multimerize on DNA and methylate DNA processively, which is contradicting
Previous biochemical and structural data indicated that one Dnmt3a-C complex contacts the DNA with its inner two subunits and methylates cytosine residues in the upper and lower DNA strand located at a distance of 8 –10 bp [10, 11, 14]
We conclude that binding of Dnmt3a-C to the 29-mer DNA shows only a very weak cooperativity, indicating that an oligonucleotide of this size can be used as a reference substrate to study Dnmt3a-C methylation activity with little influence of cooperative DNA binding and multimerization of Dnmt3a-C complexes on the DNA
Summary
Dnmt3a has been reported to multimerize on DNA and methylate DNA processively, which is contradicting. We show that addition of a catalytically inactive Dnmt3a mutant, which carries an amino acid exchange in the catalytic center, increases the DNA methylation rate by wild type Dnmt3a on the long substrate but not on the short one In agreement with this finding, preincubation experiments indicate that stable protein/ DNA fibers are formed on the long, but not on the short substrate. Methylation experiments with substrates containing one or two CpG sites did not provide evidence for a processive mechanism over a wide range of enzyme concentrations These data clearly indicate that Dnmt3a binds to DNA in a cooperative reaction and that the formation of stable protein/ DNA fibers increases the DNA methylation rate. Understanding the mechanism of Dnmt3a is of vital importance because Dnmt3a is a hotspot of somatic cancer mutations one of which has been implicated in changing Dnmt3a processivity
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
