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1
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Xanthorhodopsin: a proton pump with a light-harvesting carotenoid antenna.
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Science
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2005
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1.90
|
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2
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Proton transfers in the photochemical reaction cycle of proteorhodopsin.
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Biochemistry
|
2002
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1.55
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3
|
Crystallographic structure of xanthorhodopsin, the light-driven proton pump with a dual chromophore.
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Proc Natl Acad Sci U S A
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2008
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1.45
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4
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Crystallographic structures of the M and N intermediates of bacteriorhodopsin: assembly of a hydrogen-bonded chain of water molecules between Asp-96 and the retinal Schiff base.
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J Mol Biol
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2003
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1.38
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5
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Proton binding within a membrane protein by a protonated water cluster.
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Proc Natl Acad Sci U S A
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2005
|
1.36
|
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6
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Proton transport by proteorhodopsin requires that the retinal Schiff base counterion Asp-97 be anionic.
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Biochemistry
|
2003
|
1.23
|
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7
|
Characterization of the photochemical reaction cycle of proteorhodopsin.
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Biophys J
|
2003
|
1.11
|
|
8
|
pH-dependent transitions in xanthorhodopsin.
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Photochem Photobiol
|
2007
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1.09
|
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9
|
Structural clues to the mechanism of ion pumping in bacteriorhodopsin.
|
Adv Protein Chem
|
2003
|
1.07
|
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10
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Functions of carotenoids in xanthorhodopsin and archaerhodopsin, from action spectra of photoinhibition of cell respiration.
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Biochim Biophys Acta
|
2006
|
1.02
|
|
11
|
Bacteriorhodopsin photocycle at cryogenic temperatures reveals distributed barriers of conformational substates.
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Proc Natl Acad Sci U S A
|
2007
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1.02
|
|
12
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Excitation energy-transfer and the relative orientation of retinal and carotenoid in xanthorhodopsin.
|
Biophys J
|
2008
|
1.01
|
|
13
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Induced chirality of the light-harvesting carotenoid salinixanthin and its interaction with the retinal of xanthorhodopsin.
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Biochemistry
|
2006
|
1.00
|
|
14
|
Reconstitution of Gloeobacter violaceus rhodopsin with a light-harvesting carotenoid antenna.
|
Biochemistry
|
2009
|
0.98
|
|
15
|
A priori resolution of the intermediate spectra in the bacteriorhodopsin photocycle: the time evolution of the L spectrum revealed.
|
J Phys Chem A
|
2006
|
0.97
|
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16
|
The photochemical reaction cycle of proteorhodopsin at low pH.
|
Biophys J
|
2003
|
0.96
|
|
17
|
Light-driven Na(+) pump from Gillisia limnaea: a high-affinity Na(+) binding site is formed transiently in the photocycle.
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Biochemistry
|
2014
|
0.96
|
|
18
|
Structural snapshots of conformational changes in a seven-helix membrane protein: lessons from bacteriorhodopsin.
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Curr Opin Struct Biol
|
2009
|
0.95
|
|
19
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Femtosecond carotenoid to retinal energy transfer in xanthorhodopsin.
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Biophys J
|
2009
|
0.95
|
|
20
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Chromophore interaction in xanthorhodopsin--retinal dependence of salinixanthin binding.
|
Photochem Photobiol
|
2008
|
0.92
|
|
21
|
Selectivity of retinal photoisomerization in proteorhodopsin is controlled by aspartic acid 227.
|
Biochemistry
|
2004
|
0.90
|
|
22
|
Secondary and tertiary structure of bacteriorhodopsin in the SDS denatured state.
|
Biochemistry
|
2012
|
0.89
|
|
23
|
Formation of a long-lived photoproduct with a deprotonated Schiff base in proteorhodopsin, and its enhancement by mutation of Asp227.
|
Biochemistry
|
2005
|
0.88
|
|
24
|
Reconstitution of gloeobacter rhodopsin with echinenone: role of the 4-keto group.
|
Biochemistry
|
2010
|
0.87
|
|
25
|
Breaking the carboxyl rule: lysine 96 facilitates reprotonation of the Schiff base in the photocycle of a retinal protein from Exiguobacterium sibiricum.
|
J Biol Chem
|
2013
|
0.86
|
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26
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The nitrate transporting photochemical reaction cycle of the pharaonis halorhodopsin.
|
Biophys J
|
2004
|
0.86
|
|
27
|
Molecular dynamics simulation of the unfolding of individual bacteriorhodopsin helices in sodium dodecyl sulfate micelles.
|
Biochemistry
|
2012
|
0.86
|
|
28
|
Nature's toolkit for microbial rhodopsin ion pumps.
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Proc Natl Acad Sci U S A
|
2014
|
0.84
|
|
29
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Conformational change of the E-F interhelical loop in the M photointermediate of bacteriorhodopsin.
|
J Mol Biol
|
2002
|
0.83
|
|
30
|
Coordinating the structural rearrangements associated with unidirectional proton transfer in the bacteriorhodopsin photocycle induced by deprotonation of the proton-release group: a time-resolved difference FTIR spectroscopic study.
|
Biochemistry
|
2010
|
0.82
|
|
31
|
Switch from conventional to distributed kinetics in the bacteriorhodopsin photocycle.
|
Biochemistry
|
2008
|
0.81
|
|
32
|
Changes in hydrogen bonding and environment of tryptophan residues on helix F of bacteriorhodopsin during the photocycle: a time-resolved ultraviolet resonance Raman study.
|
Biochemistry
|
2002
|
0.81
|
|
33
|
Electron paramagnetic resonance study of structural changes in the O photointermediate of bacteriorhodopsin.
|
J Mol Biol
|
2006
|
0.81
|
|
34
|
Characterization of the azide-dependent bacteriorhodopsin-like photocycle of salinarum halorhodopsin.
|
Biophys J
|
2002
|
0.80
|
|
35
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Structural changes in the N and N' states of the bacteriorhodopsin photocycle.
|
Biophys J
|
2009
|
0.80
|
|
36
|
Structure changes upon deprotonation of the proton release group in the bacteriorhodopsin photocycle.
|
Biophys J
|
2012
|
0.79
|
|
37
|
Removal and reconstitution of the carotenoid antenna of xanthorhodopsin.
|
J Membr Biol
|
2010
|
0.79
|
|
38
|
Low-temperature FTIR study of multiple K intermediates in the photocycles of bacteriorhodopsin and xanthorhodopsin.
|
J Phys Chem B
|
2010
|
0.78
|
|
39
|
Photocycle of Exiguobacterium sibiricum rhodopsin characterized by low-temperature trapping in the IR and time-resolved studies in the visible.
|
J Phys Chem B
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2013
|
0.78
|
|
40
|
Carotenoid response to retinal excitation and photoisomerization dynamics in xanthorhodopsin.
|
Chem Phys Lett
|
2011
|
0.77
|
|
41
|
Two bathointermediates of the bacteriorhodopsin photocycle, from time-resolved nanosecond spectra in the visible.
|
J Phys Chem B
|
2009
|
0.77
|
|
42
|
Infrared monitoring of interlayer water in stacks of purple membranes.
|
Photochem Photobiol
|
2009
|
0.76
|
|
43
|
Structural changes in bacteriorhodopsin during in vitro refolding from a partially denatured state.
|
Biophys J
|
2011
|
0.76
|