Matrix attachment regions are positioned near replication initiation sites, genes, and an interamplicon junction in the amplified dihydrofolate reductase domain of Chinese hamster ovary cells.

Author:

Dijkwel P A,Hamlin J L

Abstract

Genomic DNA in higher eucaryotic cells is organized into a series of loops, each of which may be affixed at its base to the nuclear matrix via a specific matrix attachment region (MAR). In this report, we describe the distribution of MARs within the amplified dihydrofolate reductase (DHFR) domain (amplicon) in the methotrexate-resistant CHO cell line CHOC 400. In one experimental protocol, matrix-attached and loop DNA fractions were prepared from matrix-halo structures by restriction digestion and were analyzed for the distribution of amplicon sequences between the two fractions. A second, in vitro method involved the specific binding to the matrix of cloned DNA fragments from the amplicon. Both methods of analysis detected a MAR in the replication initiation locus that we have previously defined in the DHFR amplicon, as well as in the 5'-flanking region of the DHFR gene. The first of these methods also suggests the presence of a MAR in a region mapping approximately 120 kilobases upstream from the DHFR gene. Each of these MARs was detected regardless of whether the matrix-halo structures were prepared by the high-salt or the lithium 3,5-diiodosalicylate extraction protocols, arguing against their artifactual association with the proteinaceous scaffolding of the nucleus during isolation procedures. However, the in vitro binding assay did not detect the MAR located 120 kilobases upstream from the DHFR gene but did detect specific matrix attachment of a sequence near the junction between amplicons. The results of these experiments suggest that (i) MARs can occur next to different functional elements in the genome, with the result that a DNA loop formed between two MARs can be smaller than a replicon; and (ii) different methods of analysis detect a somewhat different spectrum of matrix-attached DNA fragments.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

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