Abstract is missing.
- Acknowledgements
- Foreword
- Introduction
- A sticker based model for DNA computationSam T. Roweis, Erik Winfree, Richard Burgoyne, Nickolas V. Chelyapov, Myron F. Goodman, Paul W. K. Rothemund, Leonard M. Adleman. 1-30
- On applying molecular computation to the data encryption standardLeonard M. Adleman, Paul W. K. Rothemund, Sam T. Roweis, Erik Winfree. 31-44
- Massively parallel DNA computation: Expansion of symbolic determinantsThomas H. Leete, Matthew D. Schwartz, Robert M. Williams, David Harlan Wood, Jerome S. Salem, Harvey Rubin. 45-58
- Universal DNA computing models based on the splicing operationGheorghe Paun. 59-76
- Running dynamic programming algorithms on a DNA computerEric B. Baum, Dan Boneh. 77-86
- A molecular computation of the road coloring problemNatasa Jonoska, Stephen A. Karl. 87-96
- DNA based molecular computation: Template-template interactions in PCRPeter D. Kaplan, Guillermo A. Cecchi, Albert Libchaber. 97-104
- Use of a horizontal chain reaction for DNA-based additionFrank Guarnieri, F. Carter Bancroft. 105-112
- Computation with DNA: Matrix multiplicationJohn S. Oliver. 113-122
- A surface-based approach to DNA computationQinghua Liu, Zhen Guo, Zhengdong Fei, Anne Condon, Robert M. Corn, Max G. Lagally, Lloyd M. Smith. 123-132
- Mesoscopic computer engineering: Automating DNA-based molecular computing via traditional practices of parallel computer architecture designJohn-Thones Amenyo. 133-150
- Error-resistant implementation of DNA computationsMartyn Amos, Alan Gibbons, David A. Hodgson. 151-162
- Making DNA computers error resistantDan Boneh, Christopher Dunworth, Richard J. Lipton, JirĂ Sgall. 163-170
- Active transport in biological computingStuart A. Kurtz, Stephen R. Mahaney, James S. Royer, Janos Simon. 171-180
- RNA based computing: Some examples from RNA catalysis and RNA editingLaura F. Landweber. 181-190
- Universal computation via self-assembly of DNA: Some theory and experimentsErik Winfree, Xiaoping Yang, Nadrian C. Seeman. 191-214
- The perils of polynucleotides: The experimental gap between the design and assembly of unusual DNA structuresStephen C. Seeman, Hui Wang, Bing Liu, Jing Qi, Xiaojun Li, Xiaoping Yang, Furong Liu, Weiqiong Sun, Zhiyong Shen, Ruojie Sha, Chengde Mao, Yinli Wang, Siwei Zhang, Tsu-Ju Fu, Shouming Du, John E. Mueller, Yuwen Zhang, Junghuei Chen. 215-234
- DNA sequences useful for computationEric B. Baum. 235-242
- A restricted genetic alphabet for DNA computingKalim U. Mir. 243-246
- Good encodings for DNA-based solutions to combinatorial problemsRussell J. Deaton, R. C. Murphy, Max H. Garzon, Donald R. Franceschetti, Stanley Edward Stevens Jr.. 247-258
- DNA computations can have global memoryRichard J. Lipton. 259-266
- Exascale computer algebra problems interconnect with molecular reactions and complexity theoryRobert M. Williams, David Harlan Wood. 267