Enrichment and depletion of Hela topoisomerase I recognition sites among specific types of DNA elements

doi:10.1093/nar/16.16.7975

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Nucleic Acids Research, 1988, Vol. 16, No. 16 7975-7993
© 1988

Articles

Enrichment and depletion of Hela topoisomerase I recognition sites among specific types of DNA elements

Carlos Perez-Stable⁺, Chein Celia Shen and Che-Kun Shen^*

Department of Genetics, University of California, Davis CA 95616, USA

⁺Present address: Department of Human Genetics sad Development, College of Physicians and Surgeons, Columbia University, New York, NY 10032, USA

^*To whom correspondence should be addressed

Received April 8, 1988. Revised July 11, 1988. Accepted July 11, 1988.

The SDS-induced nicking of DNA helix by Hela topoisomerase Iin vitro haa been studied by using 2.9 kb of cloned human DNAas the substrate. The frequency of nicking is increased from1/23 (nick/nt) to 1/19 (nick/nt) when camptothecin is presentin the nicking reaction. The cytotoxic drug also induces DNAnicks without the addition of SDS. Although the consensus builtfrom DNA sequences from –20 to +20 of more tham one hundredof the nicking sites only shows a preference for T at position-1, the distributions of the topoisomerae I-cleavable sitesamong different categories of specific DNA sequences are apparentlynon- random. Long stretches of tandem (CA), A, or T residues,and the GC-rich promoter region of C globin gene are all refractoryto the nicking reaction. Howevar, the nicking frequencies ofshort direct repeats flanking different Alu type sequences areas high as 1/6 (nick/nt). Finally, several tandemly arrangedminirepeats of the form (TA), that are usually found at the3' ends of the primate Alu family ^xKp^ynl^l family repeats, canbe cleaved efficiently in a regular pattern by the enzyme. Thesedata are discussed in terms of the mode of recognition of DNAseqeunces/structures by topoisomerase I, and its possible rolesin the nonhomologous insertion of repetitive DNA sequences.

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