Team:MoWestern Davidson/acknowledgements

From 2009.igem.org

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# Karp R. 1972. "Reducibility among combinatorial problems." ''Complexity of Computer Computations.'' 85-103.
# Karp R. 1972. "Reducibility among combinatorial problems." ''Complexity of Computer Computations.'' 85-103.
# Sakamoto, K., Gouzu, H., Komiya, K., et al. 2000. “Molecular Computation by DNA Hairpin Formation.” ''Science.'' 288:1223-1226.
# Sakamoto, K., Gouzu, H., Komiya, K., et al. 2000. “Molecular Computation by DNA Hairpin Formation.” ''Science.'' 288:1223-1226.
-
# Rodriguez, E. A., Lester, H. A., Dougherty, D. A. 2005. “In vivo incorporation of multiple unnatural amino acids through nonsense and frameshift suppression.” PNAS. 103:8650-8655.
+
# Rodriguez, E. A., Lester, H. A., Dougherty, D. A. 2005. “In vivo incorporation of multiple unnatural amino acids through nonsense and frameshift suppression.” ''PNAS.'' 103:8650-8655.
-
# Zhong P., Ashar P., Malik S., Martonosi M.. 1998.  "Using reconfigurable computing techniques to accelerate problems in the CAD domain; a case study with Boolean satisfiability."  Design Automation Conference Proceedings.  194-199.
+
# Zhong P., Ashar P., Malik S., Martonosi M.. 1998.  "Using reconfigurable computing techniques to accelerate problems in the CAD domain; a case study with Boolean satisfiability."  ''Design Automation Conference Proceedings.'' 194-199.
-
# Sakamoto K., Hayashi A., Sakamoto A. et al. 2002.  "Site-specific incorporation of an unnatural amino acid into proteins in mammalian cells." "Nucleic Acids Research." 30:21. 4692-4699.
+
# Sakamoto K., Hayashi A., Sakamoto A. et al. 2002.  "Site-specific incorporation of an unnatural amino acid into proteins in mammalian cells." ''Nucleic Acids Research.'' 30:21. 4692-4699.
-
# Nakajima Y., Kimura T., Sugata K., et al.  2005.  "Multicolor luciferase assay system: one-step monitoring of multiple gene expressions with a single substrate." "BioTechniques." 38:891-894.
+
# Nakajima Y., Kimura T., Sugata K., et al.  2005.  "Multicolor luciferase assay system: one-step monitoring of multiple gene expressions with a single substrate." ''BioTechniques.'' 38:891-894.
-
# Faulhammer D., Cukras A., Lipton R., Landweber L. 2000.  "Molecular computation:  RNA solutions to chess problems." "PNAS." 97:4.  1385-1389.
+
# Faulhammer D., Cukras A., Lipton R., Landweber L. 2000.  "Molecular computation:  RNA solutions to chess problems." ''PNAS.'' 97:4.  1385-1389.
-
# Chen J., Wood, DH.. 2000.  "Computation with biomolecules."  "PNAS." 97:4.  1328-1330.
+
# Chen J., Wood, DH.. 2000.  "Computation with biomolecules."  ''PNAS.'' 97:4.  1328-1330.
-
# Braich R, Chelyapov N.,Johnson C, Rothermund P., Adleman, L.. 14 March 2002. "Solution of a 20-variable 3-SAT problem on a DNA computer."  "Sciencexpress.  www.sciencexpress.org/14 March 2002.
+
# Braich R, Chelyapov N.,Johnson C, Rothermund P., Adleman, L.. 14 March 2002. "Solution of a 20-variable 3-SAT problem on a DNA computer."  ''Sciencexpress.'' www.sciencexpress.org/14 March 2002.
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Revision as of 02:15, 20 October 2009


Acknowledgements


  • Dr. J. Christopher Anderson (UC Berkeley) for his guidance with the construction of suppressor tRNAs.
  • Dr. Tim Herman (Milwaukee School of Engineering) for generously providing resources for physical modeling of our tRNAs.

Funding Provided By


  • NSF UBM grants to MWSU (DMS-0733955)and Davidson (DMS-0733952)
  • HHMI grants 52005120 and 52006292 to Davidson
  • James G. Martin Genomics Program at Davidson
  • Missouri Western Foundation
  • Missouri Western Academic and Student Affairs
  • Davidson Research Initiative

References


  1. Magliery T., Anderson J., and P. Schultz. 2001. "Expanding the genetic code: Selection of efficient suppressors of four-base codons and indentification of 'shifty' four-base codons with a library approach in Escherichia coli." J. Mol. Biol. 307:755-769.
  2. Anderson J., Magliery T., and P. Schultz. 2002. "Exploring the limits of codon and anticodon size." Chemistry & Biology. 9: 237-244.
  3. Dasgupta S., Papadimitriou C., and U. Vazirani. 2008. Algorithms. McGraw Hill, Boston.
  4. Karp R. 1972. "Reducibility among combinatorial problems." Complexity of Computer Computations. 85-103.
  5. Sakamoto, K., Gouzu, H., Komiya, K., et al. 2000. “Molecular Computation by DNA Hairpin Formation.” Science. 288:1223-1226.
  6. Rodriguez, E. A., Lester, H. A., Dougherty, D. A. 2005. “In vivo incorporation of multiple unnatural amino acids through nonsense and frameshift suppression.” PNAS. 103:8650-8655.
  7. Zhong P., Ashar P., Malik S., Martonosi M.. 1998. "Using reconfigurable computing techniques to accelerate problems in the CAD domain; a case study with Boolean satisfiability." Design Automation Conference Proceedings. 194-199.
  8. Sakamoto K., Hayashi A., Sakamoto A. et al. 2002. "Site-specific incorporation of an unnatural amino acid into proteins in mammalian cells." Nucleic Acids Research. 30:21. 4692-4699.
  9. Nakajima Y., Kimura T., Sugata K., et al. 2005. "Multicolor luciferase assay system: one-step monitoring of multiple gene expressions with a single substrate." BioTechniques. 38:891-894.
  10. Faulhammer D., Cukras A., Lipton R., Landweber L. 2000. "Molecular computation: RNA solutions to chess problems." PNAS. 97:4. 1385-1389.
  11. Chen J., Wood, DH.. 2000. "Computation with biomolecules." PNAS. 97:4. 1328-1330.
  12. Braich R, Chelyapov N.,Johnson C, Rothermund P., Adleman, L.. 14 March 2002. "Solution of a 20-variable 3-SAT problem on a DNA computer." Sciencexpress. www.sciencexpress.org/14 March 2002.

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