[1] Adleman L M.Molecular computation of solutions to combinatorial problems[J].Science,1994,266(5187):1021.
[2] Fu T J,Seeman N C.DNA double-crossover molecules[J].Biochemistry,1993,32(13):3211.
[3] Mao C,Sun W,Seeman N C.Designed two dimensional DNA holliday junction arrays visualized by atomic force microscopy[J].Journal of the American Chemical Society,1999,121(23):5437.
[4] Mao C,LaBean T H,Reif J H,et al.Logical computation using algorithmic self-assembly of DNA triple-crossover molecules[J].Nature,2000,407(6803):493.
[5] Carbone A,Seeman N C.Circuits and programmable self-assembling DNA structures[J].Proceeding of the National Academy of Sciences of the United States of Anerica,2002,99(20):12577.
[6] Brun Y.Arithmetic computation in the tile assembly model,addition and multiplication[J].Theoretical Computer Science,2007,378:17.
[7] Zhang X C,Wang Y F,Chen Z H,et al.Arithmetic computation using self-assembly of DNA tiles:Subtraction and division[J].Progress in Natural Science,2009,19(3):377.
[8] Rothemund P W.Folding DNA to create nanoscale shapes and patterns[J].Nature,2006,440(7082):297.
[9] Dongran H,Suchetan P,Jeanette N,et al.DNA origami with complex curvatures in three-dimensional space[J].Science,2011,332:342.
[10] Bryan W,Mingjie D,Peng Y.Complex shapes self-assembled from single-stranded DNA tiles[J].Nature,2012,485:623.
[11] Georg S,David S,David Y Z,et al.Enzyme-free nucleic acid logic circuits[J].Science,2006,314:1585.
[12] Qian L L,Winfree E.A simple DNA gate motif for synthesizing large-scale circuits[J].J R Soc Interface,2010,5347:70.
[13] Qian L L,Winfree E.Scaling up digital circuit computation with DNA strand displacement cascades[J].Science,2011,332(6034):1196.
[14] Qian L L,Winfree E,Bruck J.Neural network computation with DNA strand displacement cascades[J].Nature,2011,475:368.
[15] Matthew L,Simon Y,Filippo P,et al.Visual DSD:A design and analysis tool for DNA strand displacement systems[J].Bioinformatics,2011,27(22):3211.