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J Org Chem. 2008 Apr 4;73(7):2829-42. doi: 10.1021/jo702747w. Epub 2008 Mar 11.

Modulation of pyrene fluorescence in DNA probes depends upon the nature of the conformationally restricted nucleotide.

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Department of Bioorganic Chemistry, Box 581, Biomedical Center, Uppsala University, SE-75123 Uppsala, Sweden.


The DNA probes (ODNs) containing a 2'-N-(pyren-1-yl)-group on the conformationally locked nucleosides [2'-N-(pyren-1-yl)carbonyl-azetidine thymidine, Aze-pyr (X), and 2'-N-(pyren-1-yl)carbonyl-aza-ENA thymidine, Aza-ENA-pyr (Y)], show that they can bind to complementary RNA more strongly than to the DNA. The Aze-pyr (X) containing ODNs with the complementary DNA and RNA duplexes showed an increase in the fluorescence intensity (measured at lambda em approximately 376 nm) depending upon the nearest neighbor at the 3'-end to X [dA ( approximately 12-20-fold) > dG ( approximately 9-20-fold) > dT ( approximately 2.5-20-fold) > dC ( approximately 6-13-fold)]. They give high fluorescence quantum yields (Phi F = 0.13-0.89) as compared to those of the single-stranded ODNs. The Aza-ENA-pyr (Y)-modified ODNs, on the other hand, showed an enhancement of the fluorescence intensity only with the complementary DNA (1.4-3.9-fold, Phi F = 0.16-0.47); a very small increase in fluorescence is also observed with the complementary RNA (1.1-1.7-fold, Phi F = 0.17-0.22), depending both upon the site of the Y modification introduced as well as on the chemical nature of the nucleobase adjacent to the modification site into the ODN. The fluorescence properties, thermal denaturation experiments, absorption, and circular dichroism (CD) studies with the X- and Y-modified ODNs in the form of matched homo- and heteroduplexes consistently suggested (i) that the orientation of the pyrene moiety is outside the helix of the nucleic acid duplexes containing a dT-d/rA base pair at the 3'-end of the modification site for both X and Y types of modifications, and (ii) that the microenvironment around the pyrene moiety in the ODN/DNA and ODN/RNA duplexes is dictated by the chemical nature of the conformational constraint in the sugar moiety, as well as by the nature of neighboring nucleobases. The pyrene fluorescence emission in both X and Y types of the conformationally restricted nucleotides is found to be sensitive to a mismatched base present in the target RNA: (i) The X-modified ODN showed a decrease ( approximately 37-fold) in the fluorescence intensity (measured at lambda em approximately 376 nm) upon duplex formation with RNA containing a G nucleobase mismatch (dT-rG pair instead of dT-rA) opposite to the modification site. (ii) In contrast, the Y-modified ODN in the heteroduplex resulted in a approximately 3-fold increase in the fluorescence intensity upon dT-rG mismatch, instead of matched dT-rA pair, in the RNA strand. Our data corroborate that the pyrene moiety is intercalated in the X-modified mismatched ODN/RNA (G mismatch) heteroduplex as compared to that of the Y-modified ODN/RNA (G mismatch) heteroduplex, in which it is located outside the helix.

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