Sequence-targeted cleavage of nucleic acids by oligo-alpha-thymidylate-phenanthroline conjugates: parallel and antiparallel double helices are formed with DNA and RNA, respectively. - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Biochemistry Année : 1988

Sequence-targeted cleavage of nucleic acids by oligo-alpha-thymidylate-phenanthroline conjugates: parallel and antiparallel double helices are formed with DNA and RNA, respectively.

Résumé

Oligodeoxynucleotides can be synthesized by using the alpha anomers of nucleoside units. Oligo-alpha-deoxynucleotides are resistant to nucleases and could be used to regulate gene expression in vivo. Theoretical calculations were carried out to determine the conformational energy of an oligomeric alpha-beta duplex (dA)5.(dT)5 where the adenosine strand contains natural beta-deoxyribonucleotides and the thymidine strand contains synthetic alpha-deoxyribonucleotides. These calculations predict that in the more stable B-like conformation the two strands of the double helix should run parallel to each other whereas in the more stable A-like conformation the two strands should adopt an antiparallel orientation. In order to test these predictions 1,10-phenanthroline was covalently attached to the 5'-end of an alpha-octathymidylate. In the presence of copper ions and a reducing agent (beta-mercaptopropionic acid), the (phenanthroline)2-copper complex generates OH. radicals that cleave phosphodiester bonds in the complementary sequence to which the alpha-octathymidylate is bound. By use of a 27mer oligo-beta-deoxynucleotide containing an octadeoxyadenylate sequence as a target for the phenanthroline-substituted alpha-(dT)8, cleavage was observed on the 5'-side of the (dA)8 sequence, demonstrating that the alpha-beta DNA-DNA hybrid formed a double helix with parallel orientation of the two strands. The same result was obtained when alpha-(dT)8 was bound to beta-(dA)n with n = 8 or 10. When a beta-oligoriboadenylate was used as a target, cleavage occurred exclusively on the 3'-side of the (rA)8 or (rA)10 sequence, indicating that the alpha-beta DNA-RNA hybrid formed a double helix with an antiparallel orientation of the two strands. When a phenanthroline-substituted beta-octathymidylate was used instead of the alpha-octathymidylate, an antiparallel double helix was formed independently of whether the target beta sequence was a DNA or an RNA.Oligodeoxynucleotides can be synthesized by using the alpha anomers of nucleoside units. Oligo-alpha-deoxynucleotides are resistant to nucleases and could be used to regulate gene expression in vivo. Theoretical calculations were carried out to determine the conformational energy of an oligomeric alpha-beta duplex (dA)5.(dT)5 where the adenosine strand contains natural beta-deoxyribonucleotides and the thymidine strand contains synthetic alpha-deoxyribonucleotides. These calculations predict that in the more stable B-like conformation the two strands of the double helix should run parallel to each other whereas in the more stable A-like conformation the two strands should adopt an antiparallel orientation. In order to test these predictions 1,10-phenanthroline was covalently attached to the 5'-end of an alpha-octathymidylate. In the presence of copper ions and a reducing agent (beta-mercaptopropionic acid), the (phenanthroline)2-copper complex generates OH. radicals that cleave phosphodiester bonds in the complementary sequence to which the alpha-octathymidylate is bound. By use of a 27mer oligo-beta-deoxynucleotide containing an octadeoxyadenylate sequence as a target for the phenanthroline-substituted alpha-(dT)8, cleavage was observed on the 5'-side of the (dA)8 sequence, demonstrating that the alpha-beta DNA-DNA hybrid formed a double helix with parallel orientation of the two strands. The same result was obtained when alpha-(dT)8 was bound to beta-(dA)n with n = 8 or 10. When a beta-oligoriboadenylate was used as a target, cleavage occurred exclusively on the 3'-side of the (rA)8 or (rA)10 sequence, indicating that the alpha-beta DNA-RNA hybrid formed a double helix with an antiparallel orientation of the two strands. When a phenanthroline-substituted beta-octathymidylate was used instead of the alpha-octathymidylate, an antiparallel double helix was formed independently of whether the target beta sequence was a DNA or an RNA.
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Dates et versions

hal-00313456 , version 1 (27-08-2008)

Identifiants

  • HAL Id : hal-00313456 , version 1

Citer

Js Sun, Jc Francois, R. Lavery, T. Saison-Behmoaras, T. Montenay-Garestier, et al.. Sequence-targeted cleavage of nucleic acids by oligo-alpha-thymidylate-phenanthroline conjugates: parallel and antiparallel double helices are formed with DNA and RNA, respectively.. Biochemistry, 1988, 27, pp.6039-6045. ⟨hal-00313456⟩
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