Team:Warsaw/Acknowledgment of sources and references

From 2013.igem.org

Judging

Acrylamide detection

  1. Krajewska, A., Radecki, J. & Radecka, H. A Voltammetric Biosensor Based on Glassy Carbon Electrodes Modified with Single-Walled Carbon Nanotubes/Hemoglobin for Detection of Acrylamide in Water Extracts from Potato Crisps. Sensors 8, 5832–5844 (2008).
  2. Berkeley_UC @ 2007.igem.org. at [1]
  3. Zhou, J., Lin, J. & Zhou, C. An improved bimolecular fluorescence complementation tool based on superfolder green fluorescent protein. Acta biochimica et … 43, 239–244 (2011).
  4. Pédelacq, J.-D., Cabantous, S., Tran, T., Terwilliger, T. C. & Waldo, G. S. Engineering and characterization of a superfolder green fluorescent protein. Nature biotechnology 24, 79–88 (2006).
  5. Hanson, G. T. et al. Investigating mitochondrial redox potential with redox-sensitive green fluorescent protein indicators. The Journal of biological chemistry 279, 13044–53 (2004).
  6. Gutscher, M. et al. Real-time imaging of the intracellular glutathione redox potential. Nature methods 5, 553–9 (2008).
  7. Cui, S., Kim, S., Jo, S. & Lee, Y. A study of in vitro scavenging reactions of acrylamide with glutathione using electrospray ionization tandem mass spectrometry. BULLETIN-KOREAN … (2005).at [http://newjournal.kcsnet.or.kr/main/j_search/j_download.htm?code=B050816]

BiFC Toolbox

  1. Pédelacq, J.-D., Cabantous, S., Tran, T., Terwilliger, T. C. & Waldo, G. S. Engineering and characterization of a superfolder green fluorescent protein. Nature biotechnology 24, 79–88 (2006).
  2. Shyu, Y. J., Liu, H., Deng, X., Hu, C. Identification of new fluorescent protein fragments for bimolecular fluorescence complementation analysis under physiological conditions. BioTechniques 40:61-66 (2006).

Cytotoxicity

  1. Stott-Miller M, Neuhouser ML, Stanford JL. Consumption of deep-fried foods and risk of prostate cancer. Epub (2013).
  2. Ehlers A, Lenze D, Broll H, Zagon J, Hummel M, Lampen A. Dose dependent molecular effects of acrylamide and glycidamide in human cancer cell lines and human primary hepatocytes. Epub (2012).
  3. Besaratinia A and Pfeifer GP. A review of mechanisms of acrylamide carcinogenicity. Carcinogenesis 28, 519–528 (2007).
  4. O'Brien J, Wilson I, Orton T, Pognan F. Investigation of the Alamar Blue (resazurin) fluorescent dye for the assessment of mammalian cell cytotoxicity. Eur J Biochem 28. 5421-6 (2000).
  5. Koyamaa N, Sakamoto H, Sakuraba M, Koizumi T, Takashima Y, Hayashi M, Matsufuji H, Yamagata K, Masudac S, Kinae S, Honmaa M. Genotoxicity of acrylamide and glycidamide in human lymphoblastoid TK6 cells. Mutation Research 603, 151–158 (2006).