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Molecular and Cellular Biology, April 2000, p. 2343-2349, Vol. 20, No. 7
Department of Urology and Department of
Biochemistry and Molecular Biology, University of Southern California,
Norris Cancer Center, Los Angeles, California 90033
Received 10 November 1999/Returned for modification 16 December
1999/Accepted 28 December 1999
It has recently been shown that in Xenopus, DNA
demethylation at promoter regions may involve protein-DNA interactions,
based on the specificity of the demethylated sites. Utilizing a stable episomal system in human cells, we recently mapped the sites and dissected the steps of demethylation at oriP sites bound by
EBNA1 protein. Although it is clear that protein binding is required for demethylation of the oriP sites, it is uncertain
whether this is a unique feature of the replication origin or whether
it is a general phenomenon for all DNA sequences to which
sequence-specific proteins are bound. In the present study, we utilize
the well-defined Escherichia coli lac repressor/operator
system in human cells to determine whether protein binding to
methylated DNA, in a region that is neither a replication origin nor a
promoter, can also lead to demethylation of the binding sites. We found
that demethylation specified by protein binding is not unique to the
replication origin or to the promoter. We also found that
transcriptional activity does not influence demethylation of the
lac operator. Isopropyl-
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Copyright © 2000, American Society for Microbiology. All rights reserved.
Modulation of DNA Binding Protein Affinity Directly
Affects Target Site Demethylation
-D-thiogalactopyranoside (IPTG), an inhibitor
of the lac repressor, can prevent demethylation of the
lac operator DNA sites and can modulate demethylation of
the lac operator by affecting the binding affinity of the
lac repressor. Using this system, a titration of protein
binding can be done. This titration permits one to infer that protein
binding site occupancy is the determinant of demethylation at DNA sites
and permits a determination of how this process progresses over time.
*
Corresponding author. Mailing address: Department of
Urology and Department of Biochemistry and Molecular Biology,
University of Southern California, 1441 Eastlake Ave., Room 5420, Norris Cancer Center, Mail Stop 73, Los Angeles, CA 90033. Phone: (323) 865-0567. Fax: (323) 865-3019. E-mail:
hsieh_c{at}froggy.hsc.usc.edu.
Molecular and Cellular Biology, April 2000, p. 2343-2349, Vol. 20, No. 7
0270-7306/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.
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