Team:StanfordBrownSpelman/Cellulose Acetate

From 2014.igem.org

Revision as of 01:50, 14 October 2014 by Jotthek (Talk | contribs)

Stanford–Brown–Spelman iGEM 2014 — Cellulose Acetate

  • Image description goes here.

  • Image description goes here.

  • Image description goes here.


  • Image description goes here.

  • Image description goes here.

  • Image description goes here.
Results
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Cras venenatis lorem et odio sodales, vitae aliquet nunc ultrices. Nunc lacinia nulla urna, sed aliquam nisl fermentum sed. Phasellus vel pellentesque tortor, in tincidunt metus. Aliquam ac laoreet risus. Fusce venenatis, justo id luctus dictum, turpis libero tincidunt mauris, sit amet tempor lectus tortor ut ante. Pellentesque egestas felis et est venenatis, eget lobortis dui adipiscing. Suspendisse volutpat sem eu ornare tincidunt. Mauris pharetra sed justo vitae sodales. Nulla in sodales tortor, placerat tempor dui.
Methods & Safety
Fusce venenatis, justo id luctus dictum, turpis libero tincidunt mauris, sit amet tempor lectus tortor ut ante. Pellentesque egestas felis et est venenatis, eget lobortis dui adipiscing. Suspendisse volutpat sem eu ornare tincidunt. Mauris pharetra sed justo vitae sodales. Nulla in sodales tortor, placerat tempor dui.
References
● 1. Fischer, et al. Properties and Applications of Cellulose Acetate. Macromol. Symp., 262, 89-96. 2008.
● 2. Ross, P., Mayer, R., & Benziman, M. Cellulose Biosynthesis and Function in Bacteria. Microbiological Reviews, 55, 35-58. 1991.

● 3. Spiers, A. J., Bohannon, J., Gehrig, S. M., & Rainey, P. B. Biofilm formation at the air–liquid interface by the Pseudomonas fluorescens SBW25 wrinkly spreader requires an acetylated form of cellulose. 2003. Molecular Microbiology, 50, 15-27.
● 4. The United States Pharmacopeial Convention. Cellulose Acetate. USP-NF. 2013.

● 5. Hall, P. E., Anderson, S. M., Johnston, D. M., Cannon, R. E. Transformation of Acetobacter xylinum with Plasmid DNA by Electroporation. Plasmid, 28, 194-200. 1992.

● 6. Close, T. J., Zaitlin, D., & Kado, C. I. Design and Development of Amplifiable Broad-Host-Range Cloning Vectors: Analysis of the wir Region of Agrobacterium tumefaciens Plasmid pTiC58. Plasmid, 12, 111-118. 1984.
Additional Information
Try to avoid having any additional information here. We're trying to keep our site organized, clean, and compelling!
Built atop Foundation. Content &amp Development © Stanford–Brown–Spelman iGEM 2014.