Makoto Komiyama scite author profile

DNA origami involves the folding of long single-stranded DNA into designed structures with the aid of short staple strands; such structures may enable the development of useful nanomechanical DNA devices. Here we develop versatile sensing systems for a variety of chemical and biological targets at molecular resolution. We have designed functional nanomechanical DNA origami devices that can be used as 'single-molecule beacons', and function as pinching devices. Using 'DNA origami pliers' and 'DNA origami forceps', which consist of two levers ~170 nm long connected at a fulcrum, various single-molecule inorganic and organic targets ranging from metal ions to proteins can be visually detected using atomic force microscopy by a shape transition of the origami devices. Any detection mechanism suitable for the target of interest, pinching, zipping or unzipping, can be chosen and used orthogonally with differently shaped origami devices in the same mixture using a single platform.

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Synthesis of azobenzene-tethered DNA for reversible photo-regulation of DNA functions: hybridization and transcription

Asanuma

et al. 2007

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A phosphoramidite monomer bearing an azobenzene is synthesized from D-threoninol. Using this monomer, azobenzene moieties can be introduced into oligodeoxyribonucleotide (DNA) at any position on a conventional DNA synthesizer. With this azobenzene-tethered DNA, formation and dissociation of a DNA duplex can be reversibly photo-regulated by cis-trans isomerization of the azobenzene. When the azobenzene takes a trans-form, a stable duplex is formed. After isomerization of the trans-azobenzene to its cis-form by UV-light irradiation (300 nm < lambda < 400 nm), the duplex can be dissociated into two strands. The duplex is reformed on photo-induced cis-trans isomerization (lambda > 400 nm). The introduction of azobenzenes into the T7 promoter at specific positions also efficiently and reversibly photo-regulates transcription by T7-RNA polymerase. The reversible regulation can be repeated many times without causing damage to the DNA or the azobenzene moiety. These procedures take approximately 10 d to complete.

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Photoregulation of the Formation and Dissociation of a DNA Duplex by Using thecis-trans Isomerization of Azobenzene

Asanuma¹,

Ito²,

Yoshida³

et al. 1999

Angew. Chem. Int. Ed.

283

204

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The duplex-forming activity of an oligonucleotide has been photoregulated by making use of the isomerization of an azobenzene moiety in the side chain. When the azobenzene moiety is isomerized from the trans form to the cis form upon photoirradiation, the melting temperature of the duplex between the oligonucleotide and its complementary counterpart is significantly lowered, and the duplex is largely dissociated into two single-stranded oligonucleotides (shown schematically).

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Hydrolysis of DNA and RNA by lanthanide ions: mechanistic studies leading to new applications

Komiyama¹,

Takeda²,

Shigekawa³

1999

Chem. Commun.

311

180

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Makoto Komiyama

Cyclodextrin Chemistry

Nanomechanical DNA origami 'single-molecule beacons' directly imaged by atomic force microscopy

Synthesis of azobenzene-tethered DNA for reversible photo-regulation of DNA functions: hybridization and transcription

Photoregulation of the Formation and Dissociation of a DNA Duplex by Using thecis-trans Isomerization of Azobenzene

Hydrolysis of DNA and RNA by lanthanide ions: mechanistic studies leading to new applications

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