Tetsuya Doi scite author profile

Reversible photo-cross-linking of a DNA duplex through the [2+2] photocycloaddition of styrylpyrene is reported. Styrylpyrene moieties on d-threoninol linkers were introduced into complementary positions on DNA strands. Irradiation of the styrylpyrene pair in the duplex with visible light at λ=455 nm induced a [2+2] photocycloaddition between styrylpyrenes that cross-linked the two strands of the duplex. Two diastereomers were formed after [2+2] photocycloaddition as a result of rotation of the styrylpyrene residues. Also, the cycloreversion reaction was induced by UV light at λ=340 nm, which reversibly yielded the uncross-linked strands.

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p-Stilbazole Moieties As Artificial Base Pairs for Photo-Cross-Linking of DNA Duplex

Kashida

Doi

Sakakibara

et al. 2013

J. Am. Chem. Soc.

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In this study, we report a photo-cross-linking reaction between p-stilbazole moieties. p-Stilbazoles were introduced into base-paring positions of complementary DNA strands. The [2 + 2] photocycloaddition reaction occurred rapidly upon light irradiation at 340 nm. Consequently, duplex was cross-linked and highly stabilized after 3 min irradiation. The CD spectrum of the cross-linked duplex indicated that the B-form double-helical structure was not severely distorted. NMR analysis revealed only one conformation of the duplex prior to UV irradiation, whereas two diastereomers were detected after the photo-cross-linking reaction. Before UV irradiation, p-stilbazole can adopt two different stacking modes because of rotation around the single bond between the phenyl and vinyl groups; these conformations cannot be discriminated on the NMR time scale due to rapid interconversion. However, photo-cross-linking fixed the conformation and enabled discrimination both by NMR and HPLC. The artificial base pair of p-methylstilbazolium showed almost the same reactivity as p-stilbazole, indicating that positive charge does not affect the reactivity. When a natural nucleobase was present in the complementary strand opposite p-stilbazole, the duplex was significantly destabilized relative to the duplex with paired p-stilbazole moieties and no photoreaction occurred between p-stilbazole and the nucleobase. The p-stilbazole pair has potential as a "third base pair" for nanomaterials due to its high stability and superb orthogonality.

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Efficiency of [2 + 2] photodimerization of various stilbene derivatives within the DNA duplex scaffold

2015

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A DNA duplex was used as a scaffold to evaluate the intrinsic reactivity of [2 + 2] photodimerization between stilbene derivatives; the duplex pre-organizes the substrates avoiding the need for an association step. Unmodified stilbenes were first introduced at base-pairing positions on complementary DNA strands. The duplex was then irradiated with 340 nm UV light. HPLC analyses revealed that [2 + 2] photodimerization proceeded rapidly without side reactions. Thus, it was confirmed that the DNA duplex could be used as an ideal scaffold for [2 + 2] photodimerization of stilbenes. Next, we examined homo-photodimerization abilities of various stilbene derivatives. Homo-photodimerization of p-cyanostilbene, p-methylstilbazolium, and p-stilbazole occurred efficiently, whereas homo-photodimerization of p-dimethylaminostilbene and p-nitrostilbene did not proceed at all, probably because the reaction was quenched by dimethylamino and nitro groups. Time-dependent density functional theory calculations revealed that excitation energy was correlated with quantum yield. We further investigated hetero-photodimerization. These reactions were made possible by the use of two complementary oligodeoxyribonucleotides tethering different stilbene derivatives. Reactivities in hetero-photodimerization were highly dependent on the combination of derivatives. A high correlation was observed between the quantum yields and energy gaps of HOMO and LUMO between reactive derivatives. Unexpectedly, nitrostilbene, which was non-reactive in homo-photodimerization, cross-reacted with p-methylstilbazolium and p-stilbazole, both of which had close HOMO or LUMO with nitrostilbene. Evaluation of the intrinsic reactivity of homo- and hetero-photodimerization of stilbene derivatives was made possible by the use of DNA as a scaffold.

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Hetero‐Selective DNA‐Like Duplex Stabilized by Donor–Acceptor Interactions

Doi

Sakakibara

Kashida

et al. 2015

Chemistry A European J

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We report on the characterization of a novel hetero-selective DNA-like duplex of pyrene and anthraquinone pseudo base pairs. The pyrene/anthraquinone pairs showed excellent selectivity in hetero-recognition and even trimers were found to form a hetero-duplex. Pyrene and anthraquinone moieties were tethered on acyclic D-threoninol linkers and linked to adjacent residues by using standard phosphoramidite chemistry. When pyrene and anthraquinone were incorporated at pairing positions in complementary strands of natural DNA oligonucleotides, the duplex was stabilized significantly. Moreover, a pyrene hexamer and an anthraquinone hexamer formed a stable artificial hetero-duplex without the assistance of natural base pairs. The pyrene/anthraquinone pair was so stable that even trimers formed a hetero-duplex under conditions in which natural DNA strands of three residues do not.

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Terminus-free siRNA prepared by photo-crosslinking activated via slicing by Ago2

et al. 2015

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We report the development of photo-crosslinked siRNA strands modified at each terminus with p-cyanostilbene. The siRNA was nuclease resistant and retained RNAi activity. We further studied the activation mechanism of the covalently-crosslinked siRNA. Interestingly Dicer, which is known to generate siRNA with overhanging 3' ends from the precursor siRNA, did not cleave the crosslinked siRNA at all. Our results suggest that the activation of the crosslinked siRNAs required cleavage by Argonaute2.

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Tetsuya Doi

Visible‐Light‐Triggered Cross‐Linking of DNA Duplexes by Reversible [2+2] Photocycloaddition of Styrylpyrene

p-Stilbazole Moieties As Artificial Base Pairs for Photo-Cross-Linking of DNA Duplex

Efficiency of [2 + 2] photodimerization of various stilbene derivatives within the DNA duplex scaffold

Hetero‐Selective DNA‐Like Duplex Stabilized by Donor–Acceptor Interactions

Terminus-free siRNA prepared by photo-crosslinking activated via slicing by Ago2

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