Published in Biophys J on August 01, 1983
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Picosecond events in the photochemical cycle of the light-driven chloride-pump halorhodopsin. Biophys J (1985) 1.06
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Identification of a third rhodopsin-like pigment in phototactic Halobacterium halobium. Proc Natl Acad Sci U S A (1982) 4.38
Control of transmembrane ion fluxes to select halorhodopsin-deficient and other energy-transduction mutants of Halobacterium halobium. Proc Natl Acad Sci U S A (1982) 4.31
Mechanism of colour discrimination by a bacterial sensory rhodopsin. Nature (1985) 4.15
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Crystal structure of sensory rhodopsin II at 2.4 angstroms: insights into color tuning and transducer interaction. Science (2001) 2.25
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Molecular mechanism of spectral tuning in sensory rhodopsin II. Biochemistry (2001) 1.72
Methyl-accepting protein associated with bacterial sensory rhodopsin I. J Bacteriol (1988) 1.67
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Color discrimination in halobacteria: spectroscopic characterization of a second sensory receptor covering the blue-green region of the spectrum. Proc Natl Acad Sci U S A (1986) 1.65
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The photochemical reactions of sensory rhodopsin I are altered by its transducer. J Biol Chem (1993) 1.56
Removal of the transducer protein from sensory rhodopsin I exposes sites of proton release and uptake during the receptor photocycle. Biophys J (1993) 1.54
A eukaryotic protein, NOP-1, binds retinal to form an archaeal rhodopsin-like photochemically reactive pigment. Biochemistry (1999) 1.54
Removal of transducer HtrI allows electrogenic proton translocation by sensory rhodopsin I. Proc Natl Acad Sci U S A (1994) 1.53
Kinetically resolved states of the Halobacterium halobium flagellar motor switch and modulation of the switch by sensory rhodopsin I. J Bacteriol (1987) 1.48
Purification of photochemically active halorhodopsin. Proc Natl Acad Sci U S A (1983) 1.39
Evidence for a tyrosine protonation change during the primary phototransition of bacteriorhodopsin at low temperature. Proc Natl Acad Sci U S A (1986) 1.39
Identification of signaling states of a sensory receptor by modulation of lifetimes of stimulus-induced conformations: the case of sensory rhodopsin II. Biochemistry (1991) 1.36
Chemotactic signal integration in bacteria. Proc Natl Acad Sci U S A (1995) 1.36
The photochemical reactions of bacterial sensory rhodopsin-I. Flash photolysis study in the one microsecond to eight second time window. Biophys J (1987) 1.36
Constitutive signaling by the phototaxis receptor sensory rhodopsin II from disruption of its protonated Schiff base-Asp-73 interhelical salt bridge. Proc Natl Acad Sci U S A (1997) 1.33
Bacterial rhodopsins monitored with fluorescent dyes in vesicles and in vivo. J Membr Biol (1984) 1.33
Genetic and biochemical resolution of the chromophoric polypeptide of halorhodopsin. Biochem Biophys Res Commun (1983) 1.27
Comparative study of phototactic and photophobic receptor chromophore properties in Chlamydomonas reinhardtii. Biophys J (1993) 1.27
Mechanism of activation of sensory rhodopsin I: evidence for a steric trigger. Proc Natl Acad Sci U S A (1991) 1.26
Suppressor mutation analysis of the sensory rhodopsin I-transducer complex: insights into the color-sensing mechanism. J Bacteriol (1998) 1.26
All-trans/13-cis isomerization of retinal is required for phototaxis signaling by sensory rhodopsins in Halobacterium halobium. Biophys J (1990) 1.20
Reversal of blue light-stimulated stomatal opening by green light. Plant Cell Physiol (2000) 1.20
The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices. Proc Natl Acad Sci U S A (1999) 1.18
Identification of distinct domains for signaling and receptor interaction of the sensory rhodopsin I transducer, HtrI. J Bacteriol (1994) 1.17
The Schiff base counterion of bacteriorhodopsin is protonated in sensory rhodopsin I: spectroscopic and functional characterization of the mutated proteins D76N and D76A. Biochemistry (1994) 1.16
An archaeal photosignal-transducing module mediates phototaxis in Escherichia coli. J Bacteriol (2001) 1.14
Characterization of Halobacterium halobium mutants defective in taxis. J Bacteriol (1990) 1.13
Proton transport by sensory rhodopsins and its modulation by transducer-binding. Biochim Biophys Acta (2000) 1.12
Photosensitive phosphoproteins in Halobacteria: regulatory coupling of transmembrane proton flux and protein dephosphorylation. J Cell Biol (1981) 1.11
Synthesis of a gene for sensory rhodopsin I and its functional expression in Halobacterium halobium. Proc Natl Acad Sci U S A (1993) 1.10
Asp76 is the Schiff base counterion and proton acceptor in the proton-translocating form of sensory rhodopsin I. Biochemistry (1996) 1.10
Fourier transform infrared study of the halorhodopsin chloride pump. Biochemistry (1988) 1.08
Light-driven proton translocations in Halobacterium halobium. Biochim Biophys Acta (1976) 1.08
Proton circulation during the photocycle of sensory rhodopsin II. Biophys J (1999) 1.07
Evidence that the repellent receptor form of sensory rhodopsin I is an attractant signaling state. Photochem Photobiol (1991) 1.05
Bacterial chemoreceptor signaling probed by flash photorelease of a caged serine. Biophys J (1992) 1.05
Structure of the retinal chromophore in sensory rhodopsin I from resonance Raman spectroscopy. J Biol Chem (1989) 1.05
Spectral tuning in bacteriorhodopsin in the absence of counterion and coplanarization effects. J Biol Chem (1995) 1.03
The transducer protein HtrII modulates the lifetimes of sensory rhodopsin II photointermediates. Biophys J (1998) 1.03
Effects of substitutions D73E, D73N, D103N and V106M on signaling and pH titration of sensory rhodopsin II. Photochem Photobiol (1997) 1.02
Structure of the retinal chromophore in the hR578 form of halorhodopsin. J Biol Chem (1984) 1.02
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FTIR analysis of the SII540 intermediate of sensory rhodopsin II: Asp73 is the Schiff base proton acceptor. Biochemistry (2000) 1.01
Rapid high-yield purification and liposome reconstitution of polyhistidine-tagged sensory rhodopsin I. Protein Expr Purif (1995) 1.00
Genomic perspective on the photobiology of Halobacterium species NRC-1, a phototrophic, phototactic, and UV-tolerant haloarchaeon. Photosynth Res (2001) 1.00
Membrane potential modulates photocycling rates of bacterial rhodopsins. Biochemistry (1988) 1.00
Residue replacements of buried aspartyl and related residues in sensory rhodopsin I: D201N produces inverted phototaxis signals. Proc Natl Acad Sci U S A (1995) 1.00
Protonatable residues at the cytoplasmic end of transmembrane helix-2 in the signal transducer HtrI control photochemistry and function of sensory rhodopsin I. Proc Natl Acad Sci U S A (1996) 0.99
Identification of methylation sites and effects of phototaxis stimuli on transducer methylation in Halobacterium salinarum. J Bacteriol (1999) 0.97
Sensory rhodopsin I: receptor activation and signal relay. J Bioenerg Biomembr (1992) 0.97
Absorption and photochemistry of sensory rhodopsin--I: pH effects. Photochem Photobiol (1992) 0.97
Gain setting in Chlamydomonas reinhardtii: mechanism of phototaxis and the role of the photophobic response. Cell Motil Cytoskeleton (1994) 0.96
HtrI is a dimer whose interface is sensitive to receptor photoactivation and His-166 replacements in sensory rhodopsin I. J Biol Chem (1998) 0.96
Biochemical characterization of halorhodopsin in native membranes. J Biol Chem (1985) 0.95
Photochemical reaction cycle and proton transfers in Neurospora rhodopsin. J Biol Chem (2001) 0.95
Phase-lifetime spectrophotometry of membranes from ion flux mutants of Halobacterium halobium. J Biol Chem (1983) 0.94
Structure of the retinal chromophore in the hRL intermediate of halorhodopsin from resonance raman spectroscopy. Biochemistry (1987) 0.94
Genetic demonstration of a sensory rhodopsin in bacteria. Prog Clin Biol Res (1984) 0.93
Deletion mapping of the sites on the HtrI transducer for sensory rhodopsin I interaction. J Bacteriol (1996) 0.93
Conformational changes in sensory rhodopsin I: similarities and differences with bacteriorhodopsin, halorhodopsin, and rhodopsin. Biochemistry (1991) 0.93
Halorhodopsin and sensory rhodopsin contain a C6-C7 s-trans retinal chromophore. Biophys J (1989) 0.93
Light energy conservation processes in Halobacterium halobium cells. Fed Proc (1977) 0.93
Picosecond dynamics of bacteriorhodopsin, probed by time-resolved infrared spectroscopy. Biochemistry (1992) 0.93
Transformation of a bop-hop-sop-I-sop-II-Halobacterium halobium mutant to bop+: effects of bacteriorhodopsin photoactivation on cellular proton fluxes and swimming behavior. Photochem Photobiol (1992) 0.91
Photoconversion from the light-adapted to the dark-adapted state of bacteriorhodopsin. Biophys J (1985) 0.90
Time-resolved absorption and photothermal measurements with sensory rhodopsin I from Halobacterium salinarum. Biophys J (1999) 0.90
The ultraviolet action spectrum for stomatal opening in broad bean. Plant Physiol (2000) 0.90