Team:Austin UTexas/Results

Results


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Figure 4: amilCP expressed in E. coli and in liquid LB. Credit: Riya Sreenivasan

GOX Sequences as Putative Promoters

Three endogenous upstream regions of loci on the Gluconobacter oxydans chromosome were reported to show increased mRNA synthesis as pH decreased, were isolated and obtained, as seen in table 1 (Hanke, et al., 2012). Using Golden Gate assembly, these putative promoters have been placed on the Golden Gate entry vector pYTK001 for later use. By utilizing these pH-sensitive promoters with different reporters and transforming them into multiple organisms in kombucha, the visualization of the microbes and their location in kombucha would be possible (Lee, et al., 2015). This will serve as a stepping stone into further understanding how the microbiome of kombucha changes as it brews as well as determining organism concentration specific times during the brewing process.

Figure 5. Spun down P-atp2 constructs compared to controls in pH6-9. There is no clear gradient change in color expression. Credit: Ian Overman and Alex Alario

Table 1:The Three Endogenous GOX Sequences
Locus Tag Predicted Functions mRNA ratio pH4/pH6
GOX0647 Putative exporter protein, ArAE family 12.91
GOX0890 Hypothetical protein GOX0890 4.93
GOX1841 Hypothetical protein GOX1841 3.36

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References

  1. The Barrick Lab Conjugation Protocol
  2. Abbot, J. Komagataeibacter xylinus isolate ATCC53582 genome assembly, contig: ATCC53582_Chromosome, whole genome shotgun sequence. 2015. Accessed from NCBI website.
  3. BIT-China-2015
  4. Calloway, Ewen. (2015) Lab staple agar hit by seaweed shortage. Nature.
  5. Christensen, Emma. "How To Make Kombucha Tea at Home - Cooking Lessons from The Kitchn." The Kitchn. AT Media, 05 Apr. 2015. Web. 06 Oct. 201
  6. Dufresne, C., and E. Farnworth. "Tea, Kombucha, and Health: A Review." Food Research International. Elsevier, 1 Dec. 1999. Web. 14 Sept. 2016
  7. Hanke, T., Richhardt, J., Polen, T., Sahm, H., Bringer, S., and Bott, M. (2012) Influence of oxygen limitation, absence of the cytochrome bc1 complex and low pH on global gene expression in Gluconobacter oxydans 621H using DNA microarray technology. Journal of Biotechnology 157, 359–372.
  8. Imperial. "Project." Aqualose. Imperial College London, 2014. Web. 06 Oct. 201
  9. Ioannis Giavasis et al. (2000) Gellan Gum Critical Reviews in Biotechnology., 20.3: 177-211
  10. Kang, Kenneth S. et al. (1982) Agar-Like Polysaccharide Produced by a Pseudomonas Species: Production and Basic Properties. Applied and Environmental Microbiology., 1086-1091
  11. Kuper, C., and Jung, K. (2005) CadC-mediated activation of the cadBA promoter in Escherichia coli. Journal of Molecular and Microbiological Biotechnology 1, 26–39.
  12. Lee ME, DeLoache, WC A, Cervantes B, Dueber, JE. (2015) A Highly-characterized Yeast Toolkit for Modular, Multi-part Assembly. ACS Synthetic Biology 4 975-986
  13. Mamlouk, Y. and M. Gullo. Acetic Acid Bacteria: Physiology and carbon sources oxidation. 2013. Indian Journal of Microbiology 53 (4): 337-384.
  14. Marsh, Alan, Orla O’Sullivan, R. Ross, and Paul Cotter. "Sequence-based Analysis of the Bacterial and Fungal Compositions Ofmultiple Kombucha (tea Fungus) Samples." Elsevier (2013): 171-78. Food Microbiology. Web. 15 Sept. 2016.
  15. Nakayama, S.-I., and Watanabe, H. (1998) Identification of cpxR as a Positive Regulator Essential for Expression of the Shigella sonnei virF Gene. Journal of Bacteriology 180, 3522–3528.
  16. Nakayama, S.-I., and Watanabe, H. (1995) Involvement of cpxA, a Sensor of a Two-Component Regulatory System, in the pH-Dependent Regulation of Expression of Shigella sonnei virF Gene. Journal of Bacteriology 177, 5062–5069.
  17. Robillard, R. A microbial breathalyzer: design of a colorimetric assay for the detection and quantification of ethanol production in microbes. 2007. Major qualifying project for a B.S. degree from Worcester Polytechnic Institute.
  18. Wang, Xia, et al. (2006) Modeling for Gellan Gum Production by Sphingomonas paucimobilis ATCC 31461 in a Simplified Medium. Applied and Environmental Microbiology, 3367-3374
  19. Wu et. al. (2014) Yellow pigments generation deficient Sphingomonas strain and application thereof in Gellan Gum. US Patent 8,685,698.
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