Analogic China map constructed by DNA

Chinese Science Bulletin

Volumn 51, Issue 24, 2006, Pages 2973-2976

  Qian, Lulu ^a   Wang, Ying ^b   Zhang, Zhao ^a   Zhao, Jian ^a   Pan, Dun ^b   Zhang, Yi ^b   Liu, Qiang ^a   Fan, Chunhai ^b   Hu, Jun ^a,b   He, Lin ^a,c  

^a SHANGHAI JIAO TONG UNIVERSITY   (China)

^b SHANGHAI INSTITUTE OF APPLIED PHYSICS   (China)

^c Shanghai Jiao Tong University Affiliated Sixth People s Hospital   (China)

Author keywords

AFM; China map; DNA; Nanostructure; Origami; Self assembly

Indexed keywords

EID: 33846440590     PISSN: 10016538     EISSN: 18619541     Source Type: Journal    
DOI: 10.1007/s11434-006-2223-9     Document Type: Article

References (7)

1. Seeman N C. Nanoscale assembly and manipulation of branched DNA: A biological starting point for nanotechnology. In: Lewis J, Quel J L, et al, eds. Nanocon Proceedings. Bellevue: NANOCON, 1989. 101-107
2. Yan H, Reif J H, LaBean T H. DNA-templated self-assembly of protein arrays and highly conductive nanowires. Science, 2003, 301: 1882-1884
3. Winfree E, Liu F, Seeman N C, et al. Design and self-assembly of two-dimensional DNA crystals. Nature, 1998, 394: 539-544
4. Rothemund P W. Papadakis N, Winfree E. Algorithmic self-assembly of DNA Sierpinski triangles. PLoS Biol, 2004, 2: 2041-2053
5. Rothemund P W, Ekani-Nkodo A, Winfree E, et al. Design and characterization of programmable DNA nanotubes. JACS, 2004, 126: 16344-16352
6. LaBean T H, Reif J H, Seeman N C, et al. Construction, analysis, ligation, and self-assembly of DNA triple crossover complexes. JACS, 2000, 122: 1848-1860
7. Rothemund P W. Folding DNA to create nanoscale shapes and patterns. Nature, 2006, 440: 297-302