Biomedical Engineering Reference
In-Depth Information
63.
Hong, F. H., Chang, M., Ni, B., Needleman, R.B., Hong, F. T. (1994). Component analysis of
the fast photoelectric signal from model bacteriorhodopsin membranes. Part III. Effect of the
point mutation aspartate 212 asparagines 212.
Bioelectrochem. Bioenerg.
33:151-158.
64.
Hong, F. H., Hong, F. T. (1995). Component analysis of the fast photoelectric signal from
model bacteriorhodopsin membranes: Part 4. A method for isolating the B2 component and
the evidence for its polarity reversal at low pH.
Bioelectrochem. Bioenerg.
37:91-99.
65.
Petrak, M. R., Hong, F. T. (1998). Component analysis of the fast photoelectric signal from
model bacteriorhodopsin membranes: Part V. Effects of chloride ion transport blockers and
cation chelators.
Bioelectrochem. Bioenerg.
45:193-201.
66.
Hong, F. T. (1986). The bacteriorhodopsin model membrane system as a prototype molecular
computing element.
BioSystems
19:223-236.
67.
Drachev, L. A., Kaulen, A. D., Skulachev, V. P. (1978). Time resolution of the intermediate steps
in the bacteriorhodopsin-linked electrogenesis.
FEBS Lett.
87:161-167.
68.
Hong, F. T., Mauzerall, D. (1972). The separation of voltage-dependent photoemfs and con-
ductances in Rudin-Mueller membranes containing magnesium porphyrins.
Biochim. Biophys.
Acta
275:479-484.
69.
Fuller, B. E., Okajima, T. L., Hong, F. T. (1995). Analysis of the d.c. photoelectric signal from
model bacteriorhodopsin membranes: d.c. photoconductivity determination by means of the
null current method and the effect of proton ionophores.
Bioelectrochem. Bioenerg.
37:109-124.
70.
Drachev, L. A., Jasaitis, A. A., Kaulen, A. D., Kondrashin, A. A., Liberman, E. A., Nemecek, I.
B., Ostroumouv, S. A., Semenov, A. Yu., Skulachev, V. P. (1974). Direct measurement of electric
current generation by cytochrome oxidase, H-ATPase and bacteriorhodopsin.
Nature
249:321-324.
71.
Mitchell, P. (1966). Chemiosmotic coupling in oxidative and photosynthetic phosphorylation.
Biol. Rev.
41:445-502.
72.
Williams, R. J. P. (1978). The multifarious couplings of energy transduction.
Biochim. Biophys.
Acta
505:1-44.
73.
Vredenberg, W. J., Bulychev, A. A. (1976). Changes in the electrical potential across the thy-
lakoid membranes of illuminated intact chloroplasts in the presence of membrane-modifying
agents,
Plant Sci. Lett.
7:101-107.
74.
Packham, N. K., Mueller, P., Dutton, P. L. (1988). Photoelectric currents across planar bilayer
membranes containing bacterial reaction centers: the response under conditions of multiple
reaction-center turnovers.
Biochim. Biophys. Acta
933:70-84.
75.
Hong, F. T. (1989). Relevance of light-induced charge displacements in molecular electronics:
design principles at the supramoleuclar level.
J. Molec. Electron.
5:163-185.
76.
Hong, F. T. (1992). Intelligent materials and intelligent microstructures in photobiology.
Nanobiology
1:39-60.
77.
Hong, F. T. (1991). Does nature utilize a common design for photoactive transport and sensor
proteins? In: Lazarev, P. I. (Ed.).
Molecular Electronics—Materials and Methods
. Dordrecht, The
Netherlands: Kluwer Academic Publishers, pp. 291-310.
78.
Michaile, S., Duschl, A., Lanyi, J. K., Hong, F. T. (1990). Chloride ion modulation of the fast
photoelectric signal in halorhodopsin thin films. In:
Proceedings 12th Annual International
Conference of IEEE Engineering in Medicine and Biology Society.
Philadelphia, PA, November 1-4,
pp. 1721-1723.
79.
Deisenhofer, J., Michel, H. (1989). The photosynthetic reaction center from the purple bac-
terium
Rhodopseudomonas viridis
.
Science
245:1463-1473.
80.
Hong, F. T. (1994). Retinal proteins in photovoltaic devices. In: Birge, R. R. (Ed.).
Molecular and
Biomolecular Electronics
(Advances in Chemistry Series No. 240). Washington, DC: American
Chemical Society, pp. 527-559.
81.
Hong, F. T. (1990). Bacteriorhodopsin as an intelligent material. In: Wang, C.-Y., Chen, C.-T.,
Cheng, C.-K., Huang, Y.-Y., Lin, F.-H. (Eds.).
Biomedical Engineering in the 21st Century
. Taipei,
Taiwan: National Taiwan University Center for Biomedical Engineering. pp. 85-95.
82.
Hara, M., Majima, T., Miyake, J., Ajiki, S., Sugino, H., Toyotama, H., Kawamura, S. (1990).
Oriented immobilization of bacterial photosynthetic membrane.
Appl. Microbiol. Biotechnol.
32:544-549.
