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DNA computing

The biocompatible computing device: Deoxyribonucleic acid (DNA)

DNA computing is an emerging branch of unconventional computing which uses DNA, biochemistry, and molecular biology hardware, instead of the traditional electronic computing. Research and development in this area concerns theory, experiments, and applications of DNA computing. Although the field originally started with the demonstration of a computing application by Len Adleman in 1994, it has now been expanded to several other avenues such as the development of storage technologies,[1][2][3] nanoscale imaging modalities,[4][5][6] synthetic controllers and reaction networks,[7][8][9][10] etc.

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  2. ^ Erlich, Yaniv; Zielinski, Dina (2017-03-02). "DNA Fountain enables a robust and efficient storage architecture". Science. 355 (6328): 950–954. Bibcode:2017Sci...355..950E. doi:10.1126/science.aaj2038. ISSN 0036-8075. PMID 28254941. S2CID 13470340.
  3. ^ Organick, Lee; Ang, Siena Dumas; Chen, Yuan-Jyue; Lopez, Randolph; Yekhanin, Sergey; Makarychev, Konstantin; Racz, Miklos Z.; Kamath, Govinda; Gopalan, Parikshit; Nguyen, Bichlien; Takahashi, Christopher N. (March 2018). "Random access in large-scale DNA data storage". Nature Biotechnology. 36 (3): 242–248. doi:10.1038/nbt.4079. ISSN 1546-1696. PMID 29457795. S2CID 205285821.
  4. ^ Shah, Shalin; Dubey, Abhishek K.; Reif, John (2019-04-10). "Programming Temporal DNA Barcodes for Single-Molecule Fingerprinting". Nano Letters. 19 (4): 2668–2673. Bibcode:2019NanoL..19.2668S. doi:10.1021/acs.nanolett.9b00590. ISSN 1530-6984. PMID 30896178. S2CID 84841635.
  5. ^ Sharonov, Alexey; Hochstrasser, Robin M. (2006-12-12). "Wide-field subdiffraction imaging by accumulated binding of diffusing probes". Proceedings of the National Academy of Sciences. 103 (50): 18911–18916. Bibcode:2006PNAS..10318911S. doi:10.1073/pnas.0609643104. ISSN 0027-8424. PMC 1748151. PMID 17142314.
  6. ^ Jungmann, Ralf; Avendaño, Maier S.; Dai, Mingjie; Woehrstein, Johannes B.; Agasti, Sarit S.; Feiger, Zachary; Rodal, Avital; Yin, Peng (May 2016). "Quantitative super-resolution imaging with qPAINT". Nature Methods. 13 (5): 439–442. doi:10.1038/nmeth.3804. ISSN 1548-7105. PMC 4941813. PMID 27018580.
  7. ^ Shah, Shalin; Wee, Jasmine; Song, Tianqi; Ceze, Luis; Strauss, Karin; Chen, Yuan-Jyue; Reif, John (2020-05-04). "Using Strand Displacing Polymerase To Program Chemical Reaction Networks". Journal of the American Chemical Society. 142 (21): 9587–9593. doi:10.1021/jacs.0c02240. ISSN 0002-7863. PMID 32364723. S2CID 218504535.
  8. ^ Chen, Yuan-Jyue; Dalchau, Neil; Srinivas, Niranjan; Phillips, Andrew; Cardelli, Luca; Soloveichik, David; Seelig, Georg (October 2013). "Programmable chemical controllers made from DNA". Nature Nanotechnology. 8 (10): 755–762. Bibcode:2013NatNa...8..755C. doi:10.1038/nnano.2013.189. ISSN 1748-3395. PMC 4150546. PMID 24077029.
  9. ^ Srinivas, Niranjan; Parkin, James; Seelig, Georg; Winfree, Erik; Soloveichik, David (2017-12-15). "Enzyme-free nucleic acid dynamical systems". Science. 358 (6369): eaal2052. doi:10.1126/science.aal2052. ISSN 0036-8075. PMID 29242317.
  10. ^ Soloveichik, David; Seelig, Georg; Winfree, Erik (2010-03-23). "DNA as a universal substrate for chemical kinetics". Proceedings of the National Academy of Sciences. 107 (12): 5393–5398. Bibcode:2010PNAS..107.5393S. doi:10.1073/pnas.0909380107. ISSN 0027-8424. PMC 2851759. PMID 20203007.

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