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(Received for publication, March 3,
1995; and in revised form, June 6, 1995) Small cell lung cancer cells (OC-NYH-VM) were permeabilized and
treated with different nucleases. The long-range distribution of DNA
cleavage sites in the amplified c-myc gene locus was then
analyzed by pulsed field gel electrophoretic separation of the released
50-kilobase to 1-megabase DNA fragments followed by indirect end
labeling. Exogenous DNase I and nucleases specific for the
single-stranded DNA were found to generate similar nonrandom patterns
of large DNA fragments. The cleavage sites were located close to or
even colocalized with matrix attachment regions, which were mapped
independently using a recently developed procedure for DNA loop
excision by DNA topoisomerase II-mediated DNA cleavage. Endogenous
acidic nuclease with the properties of DNase II also digested DNA
preferentially in proximity to the matrix attachment regions,
generating characteristic patterns of excised DNA loops and their
oligomers. A similar, although less specific, pattern of DNA
fragmentation was observed after incubation of permeabilized cells
under conditions favoring the activity of endogenous neutral
Ca
Volume 270,
Number 31,
Issue of August 04, pp. 18685-18690, 1995
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
- and Mg
-dependent nucleases.
These findings are discussed in the context of the current model of the
spatial domain organization of eukaryotic genome.
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