Real time detection of DNA⋅RNA hybridization in living cells

Demonstrating hybridization between an antisense oligodeoxynucleotide and its mRNA target has proven to be extremely difficult in living cells. To address this fundamental problem in antisense research, we synthesized “molecular beacon” (MB) reporter oligodeoxynucleotides with matched fluorescent do...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 95; no. 20; pp. 11538 - 11543
Main Authors Sokol, Deborah L., Zhang, Xiaolin, Lu, Ponzy, Gewirtz, Alan M.
Format Journal Article
LanguageEnglish
Published Washington National Acad Sciences 29.09.1998
National Academy of Sciences
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Summary:Demonstrating hybridization between an antisense oligodeoxynucleotide and its mRNA target has proven to be extremely difficult in living cells. To address this fundamental problem in antisense research, we synthesized “molecular beacon” (MB) reporter oligodeoxynucleotides with matched fluorescent donor and acceptor chromophores on their 5′ and 3′ ends. In the absence of a complementary nucleic acid strand, the MB remains in a stem–loop conformation where fluorescence resonance energy transfer prevents signal emission. On hybridization with a complementary sequence, the stem–loop structure opens increasing the physical distance between the donor and acceptor moieties thereby reducing fluorescence resonance energy transfer and allowing a detectable signal to be emitted when the beacon is excited by light of the appropriate wavelength. Solution hybridization studies revealed that in the presence of a complementary strand targeted MB could yield up to a 60-fold increase in fluorescence intensity in comparison to control MB. By using a fluorescence microscope fitted with UV fluoride lenses, the detection limit of preformed MB/target sequence duplexes microinjected into cells was found to be ≥1 × 10 −1 ag of MB, or ∼10 molecules of mRNA. On the basis of this exquisite sensitivity, real-time detection of MB/target mRNA hybridization in living cells was attempted by microinjecting MB targeted to the vav protooncogene, or control MB, into K562 human leukemia cells. Within 15 min, confocal microscopy revealed fluorescence in cells injected with targeted, but not control, MB. These studies suggest that real-time visualization and localization of oligonucleotide/mRNA interactions is now possible. MB could find utility in studying RNA processing, trafficking, and folding in living cells. We hypothesize that MB may also prove useful for finding targetable mRNA sequence under physiologic conditions. molecular beacon/antisense/oligodeoxynucleotide/fluorescence resonance energy transfer
Bibliography:Communicated by Marvin H. Caruthers, University of Colorado, Boulder, CO
Present address: Bristol-Myers Squibb, Pennington, NJ.
To whom reprint requests should be addressed at: Room 513B, Stellar-Chance Laboratories; University of Pennsylvania School of Medicine, 422 Curie Boulevard, Philadelphia, PA 19104. e-mail: gewirtz@mail.med.upenn.edu.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.95.20.11538