Lifetime of M Intermediate in the D96N Mutant of Bacteriorhodopsin Determined by a Photoelectrochemical Method
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概要
- 論文の詳細を見る
- 1999-08-05
著者
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NEEDLEMAN Richard
Department of Biochemistry, Wayne State University
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LANYI Janos
Department of Biophysics and Physiology, University of California
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Needleman R
Department Of Biochemistry Wayne State University
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Needleman Richard
Department Of Biochemistry Wayne State University
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Needleman Richard
Department Of Chemistry And Molecular Biology Wayne State University
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Lanyi J
Department Of Biophysics And Physiology University Of California
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Lanyi Janos
Department Of Physiology And Biophysics University Of California
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Lanyi Janos
Department Of Biophysics And Physiology University Of California
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Lanyi J
Univ. California California Usa
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KOYAMA Koichi
Ashigara Research Laboratories, Fuji Photo Film Co., Ltd., Minamiashigara
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MIYASAKA Tsutomu
Ashigara Research Laboratories, Fuji Photo Film Co., Ltd., Minamiashigara
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Miyasaka Tsutomu
Ashigara Research Laboratories Fuji Photo Film Co. Ltd.
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Miyasaka Tsutomu
Ashigara Research Laboratories Fuji Photo Film Co. Ltd. Minamiashigara
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Koyama Koichi
Ashigara Research Laboratories Fuji Photo Film Co. Ltd.
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Koyama Koichi
Ashigara Research Laboratories Fuji Photo Film Co. Ltd. Minamiashigara
関連論文
- Surface Dynamics of Bacteriorhodopsin as Revealed by ^C NMR Studies on [^C]Ala-Labeled Proteins : Detection of Millisecond or Microsecond Motions in Interhelical Loops and C-Terminal α-Helix
- Stability of the C-Terminal α-Helical Domain of Bacteriorhodopsin That Protrudes from the Membrane Surface, as Studied by High-Resolution Solid-State ^C NMR^1
- Irreversible Conformational Change of Bacterio-opsin Induced by Binding of Retinal during Its Reconstitution to Bacteriorhodopsin, as Studied by ^C NMR
- Intramembrane Signaling Mediated by Hydrogen-Bonding of Water and Carboxyl Groups in Bacteriohodopsin and Rodopsin^1
- Lifetime of M Intermediate in the D96N Mutant of Bacteriorhodopsin Determined by a Photoelectrochemical Method
- Buffer Effect on the Photoelectrochemical Response of Bacteriorhodopsin
- pH-Dependent Photocurrent Response from Bacteriorhodopsin at Electrode-Electrolyte Interfaces
- Design of Intelligent Optical Sensors with Organized Bacteriorhodopsin Films
- On the Azide Effect Regenerating the Proton Channel of Mutated Bacteriorhodpsins