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Paper detail

Ternary and senary representations using DNA double-crossover tiles

The information capacity of double-crossover (DX) tiles was successfully increased beyond a binary representation to higher base representations. By controlling the length and the position of DNA hairpins on the DX tile, ternary and senary (base-3 and base-6) digit representations were realized and verified by atomic force microscopy (AFM). Also, normal mode analysis (NMA) was carried out to study the mechanical characteristics of each structure.

preprint2016arXivOpen access
Byeonghoon KimSoojin JoJunyoung SonJunghoon KimSi Un HwangSreekantha Reddy DugasaniMin Hyeok KimByung-Dong KimIksoo ChangWing Kam LiuMoon Ki KimSung Ha Park
Biological Physicscond-mat.soft
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Byeonghoon KimSoojin JoJunyoung SonJunghoon KimSi Un HwangSreekantha Reddy DugasaniMin Hyeok KimByung-Dong KimIksoo ChangWing Kam LiuMoon Ki KimSung Ha Park

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