Autors: Gieva, E. E., Rusev, R. P., Angelov, G. V., Radonov, R. I., Hristov, M. H., Takov, T. B.
Title: Proteins application in electronics
Keywords: bioelectronics, proteins, PYP, GFP, bacteriorhodopsin

Abstract: Molecular bioelectronics is well recognized in exploiting organic and biologic materials for electronic and optical-electronic devices. In this paper, a number of biological processes that could be used in molecular bioelectronic devices, optical memories and energy conversion are described. The objects of the research are three proteins Photoactive Yellow Protein, Green Fluorescence Protein, Bacteriorhodopsin and their characteristic and applications.

References

  1. Dekker C, Ratner MA. Electronic properties of DNA. Phys. World 2001; 14: 29–33.
  2. Baca M, Borgstahl G, Boissinot M, Burke P, Williams D, Slater K, Getzoff E. Complete chemical structure of photoactive yellow protein: novel thioester-linked 4-hydroxyxinnamyl chromophore and photocycle chemistry. Biochemistry 1994 33:14369–14377
  3. Hong Zhang, Qiao Sun, Zhen Li, Shinkoh Nanbu, Sean S. Smith, “First principle study of proton transfer in the green fluorescent protein (GFP): Ab initio PES in a cluster model”, Computational and Theoretical Chemistry 990 (2012) 185–193
  4. K. J. Wise, N. B. Gillespie, J. a Stuart, M. P. Krebs, and R. R. Birge, “Optimization of bacteriorhodopsin for bioelectronic devices.” Trends in biotechnology, vol. 20, no. 9, pp. 387–94, Sep. 2002.
  5. Evgeniy V. Gromov, Irene Burghardt, Horst Köppel, Lorenz S. Cederbaum, Native hydrogen bonding network of the photoactive yellow protein (PYP) chromophore: Impact on the electronic structure and photoinduced isomerization, Journal of Photochemistry and Photobiology A: Chemistry 234 (2012) pp. 123– 134
  6. Baca M, Borgstahl G, Boissinot M, Burke P, Williams D, Slater K, Getzoff E. Complete chemical structure of photoactive yellow protein: novel thioester-linked 4-hydroxyxinnamyl chromophore and photocycle chemistry. Biochemistry 1994 33:14369–14377
  7. Michael C. Petty. Molecular Electronics From Principles to Practice. Wiley 2007; Chapter 10, Section 10.4.5
  8. Jeong-Woo Choi, Yun-Suk Nam, Sei-Jeong Park, Won-Hong Lee, Dongho Kim, Masamichi Fujihira. Rectified photocurrent of the protein-based bio-photodiode. 2001
  9. J. A Stuart, D. L. Marcy, K. J. Wise, and R. R. Birge, “Volumetric optical memory based on bacteriorhodopsin,” Synthetic Metals, vol. 127, no. 1–3, pp. 3–15, Mar. 2002.
  10. K. J. Wise, N. B. Gillespie, J. a Stuart, M. P. Krebs, and R. R. Birge, “Optimization of bacteriorhodopsin for bioelectronic devices.,” Trends in biotechnology, vol. 20, no. 9, pp. 387–94, Sep. 2002.

Issue

Nanoscience & Nanotechnology – Nanostructured materials application and innovation transfer, issue 13, pp. 181 - 186, 2013, Bulgaria, ISSN 1313-8995

Full text of the publication

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