Biomedical Engineering Reference
In-Depth Information
61.
Hillebrecht, J.R., K.J. Wise, J.F. Koscielecki, and R.R. Birge, Directed evolution of bacteri-
orhodopsin for device applications.
Methods Enzymol.
, 2004.
388
: 333-347.
62.
Lee, I., E. Greenbaum, S. Budy, J.R. Hillebrecht, R.R. Birge, and J.A. Stuart, Photoinduced sur-
face potential change of bacteriorhodopsin mutant D96N measured by scanning surface
potential microscopy.
J. Phys. Chem. B
, 2006.
110
(22): 10982-10990.
63.
Li, Q., J.A. Stuart, R.R. Birge, J. Xu, A. Stickrath, and P. Bhattacharya, Photoelectric response
of polarization sensitive bacteriorhodopsin films.
Biosens. Bioelectron.
, 2002.
19
: 869-874.
64.
Xu, J., P. Bhattacharya, D.L. Marcy, J.A. Stuart, and R.R. Birge, Photoconduction in bacteri-
orhodopsin/GaAs heterostructures.
Electr. Lett.
, 2001.
37
(10): 1-2.
65.
Boehm, M.F., M.A. Gawinowicz, A. Foucault, F. Derguini, and K. Nakanishi, Photoaffinity
labeling studies of bacteriorhodopsin with [15-
3
H]-3-diazo-4-keto-all-
trans
-retinal.
J. Am.
Chem. Soc.
, 1990.
112
(21): 7779-7782.
66.
Druzhko, A.B. and H.H. Weetall, Photoinduced transformation of wild-type and D96N-
mutant 4-keto-bacteriorhodopsin gelatin films.
Thin Solid Films
, 1997.
293
: 281-284.
67.
Arnold, F. and J.C. Moore, Optimizing industrial enzymes by directed evolution.
Adv.
Biochem. Eng.
, 1997.
58
: 1-14.
68.
Kuchner, O. and F. Arnold, Directed evolution of enzyme catalysts.
Trends Biotech.
, 1997.
15
:
523-530.
69.
Arnold, F.H., Design by directed evolution.
Acc. Chem. Res.
, 1998.
31
: 125-131.
70.
Arnold, F.H. and A.A. Volkov, Directed evolution of biocatalysts.
Curr. Opin. Chem. Biol.
, 1999.
3
(1): 54-59.
71.
Arnold, F., P.L. Wintrode, K. Miyazaki, and A. Gershenson, How enzymes adapt: lessons from
directed evolution.
Trends Biochem. Sci.
, 2001.
26
(2): 100-106.
72.
Crameri, A., S. Raillart, E. Bermudez, and W.P.C. Stemmer, DNA shuffling of a family of genes
from diverse species accelerates directed evolution.
Nature
, 1998.
391
: 288-291.
73.
Miyazaki, K., P.L. Wintrode, R.A. Grayling, D.N. Rubingh, and F.H. Arnold, Directed evolution
study of temperature adaptation in a psychrophilic enzyme.
J. Mol. Biol.
, 2000.
297
(4): 1015-1026.
74.
Stemmer, W.P.C., DNA shuffling by random fragmentation and reassembly: in vitro recombi-
nation for molecular evolution.
Proc. Natl. Acad. Sci. U.S.A.
, 1994.
91
: 10747-10751.
75.
Tobin, M.B., C. Gustafsson, and G.W. Huisman, Directed evolution: the 'rational' basis for
'irrational' design.
Curr. Opin. Struct. Biol.
, 2000.
10
: 421-427.
76.
Oesterhelt, D., The structure and mechanism of the family of retinal proteins from halophilic
archaea.
Curr. Opin. Struct. Biol.
, 1998.
8
: 489-500.
77.
Brizzolara, R.A., J.L. Boyd, and A.E. Tate, Evidence for covalent attachment of purple mem-
brane to a gold surface via genetic modification of bacteriorhodopsin.
J. Vac. Sci. Technol.
, 1997.
15
(3): 773-778.
78.
Brizzolara, R.A., A method for patterning purple membrane using self-assembled monolay-
ers.
BioSystems
, 1995.
35
: 137-140.
79.
Brizzolara, R.A. and B.C. Beard, Control of purple membrane adsorption to a glass surface
using self-assembled monolayers.
J. Vac. Sci. Technol.
, 1994.
12
(5): 2981-2987.
80.
Takamatsu, S., K. Hoshino, K. Matsumoto, and I. Shimoyama. Biomolecular image sensor of
bacteriorhodopsin patterned by electrodeposition, in
18th IEEE International Conference on
Micro Electro Mechanical Systems
. 2005. Miami, Florida.
81.
Libertino, S., M. Fichera, G. D'Arrigo, A. La Mantia, and D. Ricceri, Characterization and pat-
terning of bacteriorhodopsin films on Si-based materials.
Syn. Metals
, 2003.
138
: 71-74.
82.
Libertino, S., M. Fichera, A. La Mantia, and D. Ricceri, Optical and structural characterization
of bacteriorhodopsin films on Si-based materials.
Syn. Metals
, 2003.
138
: 141-144.
83.
Keszthelyi, L., Orientation of membrane fragments by electric field.
Biochim. Biophys. Acta
,
1980.
598
: 429-436.
84.
Chen, Z. and R.R. Birge, Protein based artificial retinas.
Trends Biotech.
, 1993.
11
: 292-300.
85.
Miyasaka, T., K. Koyama, and I. Itoh, Quantum conversion and image detection by a bacteri-
orhodopsin-based artificial photoreceptor.
Science
, 1992.
255
(17 January 1992): 342-344.
86.
Tan, E.H.L., D.S.K. Govender, and R.R. Birge, Large organic cations can replace Mg
2+
and Ca
2+
ions in bacteriorhodopsin and maintain proton pumping ability.
J. Am. Chem. Soc.
, 1996.
118
(11): 2752-2753.
