Biomedical Engineering Reference
In-Depth Information
10.
Maeda, A., Iwasa, T., Yoshizawa, T. (1977). Isomeric composition of retinal chromophore in
dark-adapted bacteriorhodopsin.
J. Biochem. (Tokyo)
. 82(6): 1599-1604.
11.
Lanyi, J. K. (1993). Proton translocation mechanism and energetics in the light-driven pump
bacteriorhodopsin.
Biochim. Biophys. Acta.
1183: 241-261.
12.
Dancshazy, Z., Groma, G. I., Oesterhelt, D., Tittor, J. (1986). The photochemical cycle of bacte-
riorhodopsin has no refractory period.
FEBS Lett.
196(2): 198-202.
13.
Váró, G. (1981). Dried oriented purple membrane samples.
Acta. Biol. Acad. Sci. Hung
. 32(3-4):
301-310.
14.
Pepe, I. M., Nicolini, C. (1996). Invited review: Langmuir-Blodgett films of photosensitive
proteins.
J. Photochem. Photobiol. B: Biol
. 33: 191-200.
15.
Choi, H.-C., Min, J., Lee, W. H., Choi, J.-W. (2002). Adsorption behavior and photoelectric
response characteristics of bacteriorhodopsin thin films fabricated by self-assembly tech-
nique.
Colloid. Surf. B: Biointerf
. 23(4): 327-337.
16.
He, J.-A., Samuelson, L., Li, L., Kumar, J., Tripathy, S. K. (1998). Oriented bacteri-
orhodopsin/polycation multilayers by electrostatic layer-by-layer assembly.
Langmuir
14:
1674-1679.
17.
Koychi, K., Yamaguchi, N., Miyasaka, T. (1994). Antibody-mediated bacteriorhodopsin orien-
tation for molecular devices architectures.
Science
265: 762-765.
18.
Dér, A., Hargittai, P., Simon, J. (1985). Time-resolved photoelectric and absorption signals
from oriented purple membranes immobilized in gel.
J. Biochem. Biophys. Methods
. 10(5-6):
259-300.
19.
Luecke, H., Richter, H.-T., Lanyi, J. K. (1998). Proton transfer pathways in bacteriorhodopsin
at 2.3 angstrom resolution.
Science
280: 1934-1937.
20.
Edman, K., Nollert, P., Royant, A., Belrhall, H., Pebay-Peyoula, E., Hajdu, J., Neutze, R.,
Landau, E. M. (1999). High-resolution X-ray structure of an early intermediate in the bacteri-
orhodopsin photocycle.
Nature
401: 822-826.
21.
Ludmann, K., Gergely, C., Váró, G. (1992). Kinetic and thermodynamic study of the bacteri-
orhodopsin photocycle over a wide pH range.
Biophys. J
. 75: 3110-3119.
22.
Ganea, C., Gergely, C., Ludmann, K., Váró, G. (1997). The role of water in the extracellular half
channel of bacteriorhodopsin.
Biophys. J.
73: 2718-2725.
23.
Sharmar, P., Roy, S. (2004). All-optical biomolecular parallel logic gates with bacteri-
orhodopsin.
IEEE Trans. Nanobiosci
. 3(2): 129-136.
24.
Renner, T. Hampp, N. (1993). Bacteriorhodopsin-films for dynamic time average interferom-
etry.
Opt. Commun
. 96: 142-149.
25.
Cullin, D. W., Vsevolodov, N. N., Dyukova, T. V. (1995). Holographic properties of triton X-
100-treated bacteriorhodopsin embedded in gelatin films.
BioSystems
. 35(2-3): 141-144.
26.
Birge, R. R., Gillespie, N. B., Izaguirre, E. W., Kusnetzow, A., Lawrence, A. F., Singh, D., Song,
Q. W., Schmidt, E., Stuart, J. A., Seetharaman, S., Wise, K. J. (1999). Biomolecular electronics:
Protein-based associative processors and volumetric memories.
J. Phys. Chem. B.
103:
10746-10766.
27.
Bräuchle, C., Hampp, N., Oesterhelt, D. (1991). Optical applications of bacteriorhodopsin and
its mutated variants.
Adv. Mater
. 3(9): 420-428.
28.
Wang, W. W., Knopf, G. K., Bassi, A. S. (2005). Photoelectric properties of a detector based on
dried bacteriorhodopsin film.
Biosens. Bioelectr
. 21: 1309-1319.
29.
Saga, Y., Watanabe, T., Koyama, K., Miyasaka, T. (1999). Mechanism of photocurrent genera-
tion from bacteriorhodopsin on gold electrodes.
J. Phys. Chem. B
. 103: 234-238.
30.
Xu, J., Bhattacharya, P., Váró, G. (2004). Monolithically integrated bacteriorhodopsin/semi-
conductor opto-electronic integrated circuit for a bio-photoreceiver.
Biosens. Bioelectr.
19:
885-892.
31.
Horn, C., Steinem, C. (2005). Photocurrents generated by bacteriorhodopsin adsorbed on
nano-black lipid membranes.
Biophys. J.
89: 1046-1054.
32.
Miyasaka, T., Koyama, K., Itoh, I. (1992). Quantum conversion and image detection by a bac-
teriorhodopsin-based artificial photoreceptor.
Science
255: 342-344.
33.
Haronian, D., Lewis, A. (1992). Microfabricating bacteriohodopsin films for imaging and com-
puting.
Appl. Phys. Lett.
61(18): 2237-2239.
