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LOOPED OLIGONUCLEOTIDES FORM STABLE HYBRID COMPLEXES WITH A SINGLE-STRANDED-DNA
Tekijät: AZHAYEVA E, AZHAYEV A, GUZAEV A, HOVINEN J, LONNBERG H
Kustantaja: OXFORD UNIV PRESS UNITED KINGDOM
Julkaisuvuosi: 1995
Lehti:: Nucleic Acids Research
Tietokannassa oleva lehden nimi: NUCLEIC ACIDS RESEARCH
Lehden akronyymi: NUCLEIC ACIDS RES
Vuosikerta: 23
Numero: 7
Aloitussivu: 1170
Lopetussivu: 1176
Sivujen määrä: 7
ISSN: 0305-1048
DOI: https://doi.org/10.1093/nar/23.7.1170
Tiivistelmä
Several new branched (1, 2), circular (9) and looped oligonucleotides (14-17) were synthesized. 3'-Deoxypsicothymidine was employed to create the site of branching when required. The circular and looped structures were obtained by oxidative disulfide bond formation between mercaptoalkyl tether groups. All the oligonucleotides prepared contained two T-11 sequences, and the branched and looped oligomers an additional alternating CT sequence. The melting experiments revealed that the branched oligonucleotides form relatively weak hybrid (double/triple helix) complexes with the single-stranded oligodeoxyribonucleotide, showing a considerable destabilizing effect produced by the structure at the point of branching. The data obtained with looped oligonucleotides demonstrated considerable stabilization of the hybrid (double/triple helix) complexes with the complement. The data reported may be useful in attempting to design new antisense or antigene oligonucleotides capable of forming selective and stable bimolecular hybrid complexes with nucleic acids.
Several new branched (1, 2), circular (9) and looped oligonucleotides (14-17) were synthesized. 3'-Deoxypsicothymidine was employed to create the site of branching when required. The circular and looped structures were obtained by oxidative disulfide bond formation between mercaptoalkyl tether groups. All the oligonucleotides prepared contained two T-11 sequences, and the branched and looped oligomers an additional alternating CT sequence. The melting experiments revealed that the branched oligonucleotides form relatively weak hybrid (double/triple helix) complexes with the single-stranded oligodeoxyribonucleotide, showing a considerable destabilizing effect produced by the structure at the point of branching. The data obtained with looped oligonucleotides demonstrated considerable stabilization of the hybrid (double/triple helix) complexes with the complement. The data reported may be useful in attempting to design new antisense or antigene oligonucleotides capable of forming selective and stable bimolecular hybrid complexes with nucleic acids.
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