[1] Nanomachines "Even with our great technological advancements we can not turn sunlight into sugar nearly as efficiently as the most primitive photosynthetic plants."
[2] N.C. Seeman, The Use of Branched DNA for Nanoscale Fabrication, Nanotechnology (1991) 2, 149-159.
[3] J. D. Watson, F. H. C. Crick, A structure for Deoxyribose Nucleic Acid, (1953) Nature, 171, 737.
[4] C Mao, W. Sun, Z. Shen & N. C. Seeman, A nanomechanical device based on the B-Z transition of DNA (1999) Nature 397, 144.
[5] J. Fritz, M. K. Baller, H. P. Lang, H. Rothuizen, P. Vettiger, E. Meyer, H. -J. Güntherodt, Ch. Gerber, J. K. Gimzewski, Translating Biomolecular Recognition into Nanomechanics (2000) Science 5464, 316.
[6] B. Yurke, A. J. Turberfield, A. P. Mills, F. C. Simmel, J. L. Neumann, A DNA-fuelled molecular machine made of DNA (2000) Nature 406, 605.
[7] J. Ubbink and T. Odijk, Electrostatic-Undulatory Theory of Plectonemically Supercoiled DNA (1999) Biophysical Journal 76, 2502-2519.
[8] Y. L. Lyubchenko and L. S. Shlyakhtenko Visualization of supercoilied DNA with atomic force microscopy in situ (1997) Proc. Natl. Acad. Sci. USA 94, 496-501.
[9] C. M. Niemeyer, M. Adler, B. Pignataro, S. Lenhert, S. Gao, L. Chi, H. Fuchs, D. Blohm, Self-assembly of DNA-streptavidin nanostructures and their use as reagents in immuno-PCR (1999) Nucleic Acids Research 27, 23, 4553-4561.
[10] Christof M. Niemeyer, Michael Adler, Steven Lenhert, Song Gao, Harald Fuchs, Lifeng Chi, Nucleic Acid Supercoiling as a Means for Ionic Switching of DNA-Nanoparticle Networks (2001) ChemBioChem 2, 4, 260-264.
[11] DNA Mediated Energy Transfers "Early skepicism claiming that the charge transfers occured though the backbone, or even through the surrounding solution have since been quenched..."
[12] Quantum Biology "While on the microscale the axon clearly functions as a kind of wire that propagates an electric current to the synapse, on the nanoscale it serves the purpose of transporting vesicles..."
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