Team:BV CAPS Kansas/Project/References

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<li>Jay Keasling on Biofuels - a collection of links <a ref="https://static.igem.org/mediawiki/2013hs/2/24/Jay_Keasling_etc....pdf">https://static.igem.org/mediawiki/2013hs/2/24/Jay_Keasling_etc....pdf</a></li></ol>
<li>Jay Keasling on Biofuels - a collection of links <a ref="https://static.igem.org/mediawiki/2013hs/2/24/Jay_Keasling_etc....pdf">https://static.igem.org/mediawiki/2013hs/2/24/Jay_Keasling_etc....pdf</a></li></ol>
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<br><br><h2>Cyanobacteria and Pyruvate Kinase References</h2><ol>
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<h2>Cyanobacteria and Pyruvate Kinase References</h2><ol>
<li>Hsin-Ho Huang and Peter Lindblad (2013) <a href="http://www.jbioleng.org/content/pdf/1754-1611-7-10.pdf">“Wide-dynamic-range promoters engineered for cyanobacteria” </a> <i>Journal of Biological Engineering. </i> <b> 7(10) </b>. </li>
<li>Hsin-Ho Huang and Peter Lindblad (2013) <a href="http://www.jbioleng.org/content/pdf/1754-1611-7-10.pdf">“Wide-dynamic-range promoters engineered for cyanobacteria” </a> <i>Journal of Biological Engineering. </i> <b> 7(10) </b>. </li>
<li>H. Huang, D. Camsund, P. Lindblad and T. Heidorn (2010) <a href="http://nar.oxfordjournals.org/content/38/8/2577.full.pdf">“Design and characterization of molecular tools for a Synthetic Biology approach towards developing cyanobacterial biotechnology” </a>  <i>Nucleic Acids Research. </i>  <b>38(8) </b>, 2577–2593. </li>
<li>H. Huang, D. Camsund, P. Lindblad and T. Heidorn (2010) <a href="http://nar.oxfordjournals.org/content/38/8/2577.full.pdf">“Design and characterization of molecular tools for a Synthetic Biology approach towards developing cyanobacterial biotechnology” </a>  <i>Nucleic Acids Research. </i>  <b>38(8) </b>, 2577–2593. </li>

Revision as of 13:53, 21 June 2013

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References

Our great sources!

General References on Biofuels

  1. Anne Ruffing (2013) “Metabolic Engineering of Hydrocarbon Biosynthesis for Biofuel Production”. InTech. 263-298.
  2. Pamela Peralta-Yahya1 and Jay Keasling (2010) “Advanced biofuel production in microbes” . Biotechnology Journal. 5(2) , 147-162.
  3. S. Lee, H. Chou, T. Ham, T. Lee and J. Keasling (2008) “Metabolic engineering of microorganisms for biofuels production: from bugs to synthetic biology to fuels” Science Direct. 19, 556-563.
  4. C. Dellomonaco, F. Fava, and R. Gonzalez (2010) “The path to next generation biofuels: successes and challenges in the era of synthetic biology” Microbial Cell Factories. 9(3) .
  5. D. Savage, J. Way, and P. Silver (2008) “Defossiling Fuel: How Synthetic Biology Can Transform Biofuel Production” ACS Chemical Biology. 3(1) , 13-16.
  6. L. Jarboe, X. Zhang, X. Wang, J.. Moore, K. Shanmugam, and L. Ingram (2010) “Metabolic Engineering for Production of Biorenewable Fuels and Chemicals: Contributions of Synthetic Biology” Journal of Biomedicine and Biotechnology.
  7. R. Radakovits, R. Jinkerson, A. Darzins, and M.. Posewitz (2010) “Genetic Engineering of Algae for Enhanced Biofuel Production” American Society for Microbiology. 9(4) , 486-501.
  8. C. Martin, D.. Nielsen, K.Solomon and K. Jones Prather (2009) “Synthetic Metabolism: Engineering Biology at the Protein and Pathway Scales” Chemistry & Biology. 16(3) , 277-286.
  9. Michael Brenner et. al. (2006) “Engineering Microorganisms for Energy Production” Office of Biological and Environmental Research of the Department of Energy.
  10. Jay Keasling on Biofuels - a collection of links https://static.igem.org/mediawiki/2013hs/2/24/Jay_Keasling_etc....pdf

Cyanobacteria and Pyruvate Kinase References

  1. Hsin-Ho Huang and Peter Lindblad (2013) “Wide-dynamic-range promoters engineered for cyanobacteria” Journal of Biological Engineering. 7(10) .
  2. H. Huang, D. Camsund, P. Lindblad and T. Heidorn (2010) “Design and characterization of molecular tools for a Synthetic Biology approach towards developing cyanobacterial biotechnology” Nucleic Acids Research. 38(8) , 2577–2593.
  3. H. Knoop, Y. Zilliges, W. Lockau, and R. Steuer (2010) “The Metabolic Network of Synechocystis sp. PCC 6803: Systemic Properties of Autotrophic Growth” Plant Physiology. 154, 410–422.
  4. S. Nagarajan, D. Sherman, I. Shaw, and L. Shermana(2012) “Functions of the Duplicated hik31 Operons in Central Metabolism and Responses to Light, Dark, and Carbon Sources in Synechocystis sp. Strain PCC 6803” J. Bacteriol. 194(2) , 448.
  5. Vicki L. Knowles and William C. Plaxton (2003) “From Genome to Enzyme: Analysis of Key Glycolytic and Oxidative Pentose Phosphate Pathway Enzymes in the Cyanobacterium Synechocystis sp. PCC 6803” Plant Cell Physiol. 44(7) , 758–763.
  6. V. Knowles, C.Smith, C. Smith, and W. Plaxton (2001) “Structural and Regulatory Properties of Pyruvate Kinase from the Cyanobacterium Synechococcus PCC 6301” J. Biol. Chem. 276, 20966-20972.
  7. T. Dandekar, S. Schuster, B. Snel, M. Huynen and P. Bork (1999) “Pathway alignment: application to the comparative analysis of glycolytic enzymes” Biochem. J. 343, 115-124.
  8. Takakazu Kaneko et al. (1996) “Sequence Analysis of the Genome of the Unicellular Cyanobacterium Synechocystis sp. Strain PCC6803. II. Sequence Determination of the Entire Genome and Assignment of Potential Protein-coding Regions” DNA Research. 3, 109-136.
  9. X. Liu, S. Fallon, J. Sheng, and R. Curtiss III ( 2011) “CO2-limitation-inducible Green Recovery of fatty acids from cyanobacterial biomass” PNAS. 108(17) , 6905–6908.
  10. A. Schramm, B. Siebers, B. Tjaden, H. Brinkmann, and R. Hensel (2000) “Pyruvate Kinase of the Hyperthermophilic Crenarchaeote Thermoproteus tenax: Physiological Role and Phylogenetic Aspects” Journal of Bacteriology. 182(7) , 2001–2009.
  11. Ana Ramos et al. (2004) “Effect of pyruvate kinase overproduction on glucose metabolism of Lactococcus lactis” Microbiology. 150, 1103–1111.
  12. Wolfgang H. Nitschmann and Gunter A. Peschek (1986) “Oxidative Phosphorylation and Energy Buffering in Cyanobacteria” J. Bacteriol. 168(3), 1205.
  13. Jiro Hattori et al. (1995) “Pyruvate kinase isozymes: Ancient diversity retained in modern plant cells” Biochemical Systematics and Ecology. 23(7–8) , 773–777, 779–780.
  14. D. Gong, Z. Gong, Y. Guo, and J. Zhu (2002) “Expression, Activation, and Biochemical Properties of a Novel Arabidopsis Protein Kinase” Plant Physiology. 129, 225–234.
  15. Thomas P. Howard et al. (2013) “Synthesis of customized petroleum-replica fuel molecules by targeted modification of free fatty acid pools in Escherichia coli” PNAS. 110 (19), 7636–7641.
  16. Open Wetware Synthetic Biology Course Website with information on Algal Biofuels http://openwetware.org/wiki/CH391L/S13/Algal_Biofuels


Synthetic Biology

  1. R.Shetty, D. Endy and T. Knight Jr (2008) “Engineering BioBrick vectors from BioBrick parts” Journal of Biological Engineering. 2(5).
  2. Tom Knight (1996) “Idempotent Vector Design for Standard Assembly of Biobricks” PNAS. 93(20), 10891-6.
  3. Caltech Synthetic Biology Journal Club http://openwetware.org/wiki/Caltech_Synthetic_Biology_Journal_Club


Diagrams and Pictures

  1. Pathway Diagram01 https://static.igem.org/mediawiki/2013hs/8/8c/Pathway_Diagram.PDF
  2. Pathway Diagram02 https://static.igem.org/mediawiki/2013hs/4/46/CyanoFuels_Fig.1.png
  3. Pathway Diagram03 http://esd.lbl.gov/about/staff/christerjansson/cyanofuels.html.
  4. Ruffing, Anne M. "Figure 3." Intech. InTech, 20 Mar. 2013.Web.22 May 2013.
  5. Petit, Charlie. "E&E Greenwire: Can Cyanobacteria Break the Solar Biofuel Barriers That Algae Have Not?" Knight Science Journalism Program at MIT.Knight Science Journalism Program at MIT, 15 Apr. 2011. Web. 20 June 2013.
  6. "Training." IC Education. Web. 20 June 2013.

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