Linkage structures strongly influence the binding cooperativity of DNA intercalators conjugated to triplex forming oligonucleotides

doi:10.1093/nar/22.3.479

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Nucleic Acids Research, 1994, Vol. 22, No. 3 479-484
© 1994

MOLECULAR BIOLOGY

Linkage structures strongly influence the binding cooperativity of DNA intercalators conjugated to triplex forming oligonucleotides

Frank M. Orson¹^,2^,3^,*, Berma M. Kinsey¹^,4 and W.Michael McShan¹^,2

¹Veterans Affairs Medical Center Research Center on AIDS and HIV Infections Building 109, Room 226, VAMC, 2002 Holcombe, Houston, TX 77030, USA ²Department of Internal Medicine Building 109, Room 226, VAMC, 2002 Holcombe, Houston, TX 77030, USA ³Department of Microbiology and Immunology Building 109, Room 226, VAMC, 2002 Holcombe, Houston, TX 77030, USA ⁴Center for Biotechnology, Baylor College of Medicine Building 109, Room 226, VAMC, 2002 Holcombe, Houston, TX 77030, USA

^*To whom correspondence should be addressed at: Building 109, Room 226, Veterans Affairs Medical Center, 2000 Holcombe Boulevard, Houston, TX 77030, USA

Received August 23, 1993. Accepted November 29, 1993.

Conjugation of DNA intercalators to triple heiix forming oiigodeoxynucieotides(ODN's) can enhance ODN binding properties and consequentiytheir potentiai abiilty to moduiate gene expression. To testthe hypothesis that iinkage structure couid strongiy Infiuencethe binding enhancement of intercaiator conjugation with triplexforming ODN's, we have used a modei system to investigate bindingavidity of short oiigomers conjugated to DNA intercaiators throughvarious linkages. Using a dA₁₀·T₁₀ target sequence imbeddedin a 20 bp duplex, binding avidities of a T₁₀ ODN joined tothe DNA intercalator 6,9-diamino, 3-methoxy acridine (DAMA)by 8 different 5' linkages were measured using an electrophoreticmobiiity shift assay. Afthough unmodified T₁₀ has a very limitedcapacity for stabie binding under these conditions (apparentK_d >250 µM at 4°C), conjugation to DAMA using tiexiblelinkers of certain lengths and chemicai compositions greatlyenhanced binding (K_d of 1 µM at 4°C). Other linkers,however, modestiy enhanced binding or had no effect on bindingat au. Thus, the length, flexibility, and chemicai compositionof iinker structures au substantialiy influence intercalatorconjugated oilgodeoxynucleotide binding avidity.

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