Enzymatic and Hybridization Properties of Oligonucleotide Analogues Containing Novel Phosphotriester Internucleotide Linkage |
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Authors: | D. Wenninger M Hinz S. Hahner F. Hillenkamp H. Seliger |
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Affiliation: | 1. University of Ulm, Section of Polymers, Albert-Einstein-Allee 11 , 89069 , Ulm;2. Institute for Medical Physics and Biophysics , Robert-Koch Str. 31, 48149 , Münster , Germany |
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Abstract: | Abstract Enhanced cellular uptake, stable and discriminating hybridization and increased stability in biological media are of particular interest for oligonucleotides of potential therapeutic application. Additionally, toxicity or immunogenicity of the oligonucleotide analogues and their biodegradation products should be minimized by minimal alteration of the biological structure and effort and cost of bulk production should be as low as possible by using a standard automated synthesis protocol. Oligonucleotide phosphotriesters with oligoethyleneglycol substituents show promise to ideally combine all these advantages. Here we describe the hybridization properties and the stability of modified oligonucleotides containing triester internucleotide linkages substituted with α,ω-dihydroxy-(3,6-dioxa)-octan-1-yl group (“triethyleneglycol triester linkages”) towards enzymatic degradation. The triester linkages are stable towards exo- and endonucleases. Regardless of number and position of triester linkages, the modified oligonucleotides showed practically no decrease of Tm in hybridization studies with complementary biological oligonucleotides. In further enzymatic studies the modified oligonucleotides were highly stable towards nucleases in human blood serum. |
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