Team:Nevada/Reference

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References



E. coli
Arfman, N., V. Worrell, and L. O. Ingram. (1992). Use of the tac promoter and lacIq for the Controlled Expression of Zymomonas mobilis Fermentative genes in Escherichia coli and Zymomonas mobilis. Bacteriology 174: 7370-7378. Print.

Amann, E., & Brosius, J. (1985). 'ATG vectors' for regulated high-level expression of cloned genes in Escherichia coli. Gene 40, 183-190.

Amann, E., Brosius, J., & Ptashne, M. (1983). Vectors bearing a hybrid trp-lac promoter useful for regulated expression of cloned genes in Escherichia coli. Gene 25: 167-178.

Brosius, J., & Holy, A. (1984). Regulation of ribosomal RNA promoters with a synthetic lac operator. Biochemistry 81, 6929-6933.

De Boer, Herman A., Lisa J. Comstock, and Mark Vasser. (1983). The tac promoter: A functional hybrid derived from the trp and lac promoters. Biochemistry 80 : 21-25. Print.

Galbe, M, Sassner, P, Wingren, A, & Zacchi, G. (2007). Process engineering economics of bioethanol production. 303-327.

Ingram, L.O., Conway, T., Clark, D.P., Sewell, G.W. and Preston, J.F. (1987, Oct) Genetic Engineering of Ethanol Production in Escherichia Coli. Applied and Environmental Microbiology: 2420-2425

Steen, Eric J. , Yisheng Kang, Gregory Bokinsky, Zhihao Hu, Andreas Schirmer, Amy McClure, Stephen B. del Cardayre, and Jay D. Keasling. (2010). Microbial production of fatty-acid-derived fuels and chemicals from plant biomass. Nature 463 : 559-562. Print.

Voelker, T. A., T.R. Hayes, A.C. Cranmer, H.M. Davies. (1996) Plant Journal 9: 229–241

Cyanobacteria
Dexter, J., Fu, P. (2009) Metabolic engineering of cyanobacteria for ethanol production. Energy & Environmenal Science 2: 857-864

Labarre, Jean, Pierre Thuriaux, and Franck Chauvat. (1987). Genetic Analysis of Amino Acid Transport in the Facultatively Heterotrophic Cyanobacterium Synechocystis sp. Strain 6803. Journal of Bacteriology 169: 4668-4673. Print.

Miao, X., Wu, Q., Wu, G. and Zhao, N. (2003). Sucrose accumulation in salt-stressed cells of agp gene deletion-mutant in cyanobacterium Synechocystis sp PCC 6803.FEMS Microbiology Letters, 218: 71-77

Mitschke, J., Jens Georg, Ingeborg Scholz. (2010, Feb). An experimentally anchored map of transcriptional start sites in the model cyanobacterium Synechocystis sp. PCC6803.Proceedings of the National Academy of Sciences 108: 2124-2129

Niederholtmeyer, Henrike, Bernd T. Wolfstader, David F. Savage, Pamela A. Silver, and Jeffrey C. Way. (2010).Engineering Cyanobacteria to Synthesize and Export Hydrophillic Products. Applied and Environmental Microbiology 76 : 3462-3466. Print.

The SLIC and Gibson assembly methods. (2011, June 23). Retrieved from http://j5.jbei.org/j5manual/pages/22.html

Enzymology
EnzyChrom Free Fatty Acid Assay Kit (EFFA-100)
BioAssay Systems

EnzyChrom Ethanol Assay Kit
BioAssay Systems

Media
Flores, E., & Schmetterer, G. (1986). Interaction of Fructose with the Glucose Permease of the Cyanobacterium Synechocystis sp. Strain PCC 6803. Journal of Bacteriology, 166, 693-696.

Chen, G. and Strevett, K.A. Impact of carbon and nitrogen conditions on E. coli surface thermodynamics. Colloids and Surfaces B: Biointerfaces 28 (2003): 135-146. Print.

Miao, X., Wu, Q., Wu, G., Zao, N. Sucrose accumulation in salt-stressed cells of agp gene deletion-mutant in cyanobacterium Synechocystis sp. PCC 6803. FEMS Microbiology Letters, 218, pgs. 71-77.

Plant Tissue Culture Protocols - Phycology Media
SIGMA - Life Science

NanoBio: BG-11 media
OpenWetWare

Tryptone USP- A1431/A1401
Biotech Solabia Group


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