W. Sperling scite author profile

On the basis of data obtained by spectroscopic analysis and chromatography of retinal extracts, a consensus has been adopted that dark-adapted purple membrane (pm) contains 13-cis- and all-trans-retinal in equal amounts, whereas the light-adapted membrane contains all-trans-retinal only. We have developed an improved extraction technique which extracts up to 70% of the retinal in pm within 4 min. In the extracts from dark-adapted pm at room temperature, we consistently find 66-67% 13-cis-retinal and 33-34% all-trans-retinal, and more than 98.5% all-trans isomer in light-adapted samples. The spectrum obtained by reconstitution of bacterioopsin with 13-cis-retinal at 2 degrees C (to minimize isomerization) shows an absorbance maximum at 554 nm and agrees well with the spectrum for the 13-cis component calculated from the dark-adapted and light-adapted bR spectra with our extraction data. The ratio of 13-cis:all-trans isomer in dark-adapted pm is 2:1 and nearly constant between 0 and 38 degrees C but begins to decrease distinctly above 40 degrees C, and more rapidly near 70 degrees C, reaching 0.75 at 90 degrees C. The van't Hoff plot of the isomer ratio shows a nonlinear temperature dependence above 40 degrees C, indicating a more complex system than a simple thermal 13-cis/all-trans isomer equilibrium. We attribute the broadening, absorbance decrease, and blut shift of the visible absorption band with increasing temperature to the appearance of at least one and possibly two or three new chromophores which contain, mainly or exclusively, the all-trans isomer.(ABSTRACT TRUNCATED AT 250 WORDS)

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Photocurrents generated by bacteriorhodopsin on planar bilayer membranes

Bamberg

Apell

Dencher

et al. 1979

Biophys. Struct. Mechanism

142

111

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Abstract. When purple-membrane fragments from Halobacterium halobium are added to one aqueous phase of a positively-charged black lipid membrane, the membrane becomes photoelectrically active. Under normal conditions the steady-state photo-current is extremely low, but increases considerably when the lipid bilayer is doped with proton-permeable gramicidin channels or with a lipophilic acid-base system. These findings indicate that the purple-membrane sheets are bound to the surface of the bilayer, forming a sandwich-like structure. The time-behaviour of the photocurrent may be interpreted on the basis of a simple equivalent circuit which contains the conductance and capacitance of the purple membrane in series with the conductance and capacitance of the lipid bilayer. From the dependence of the photocurrent on the polarization of the exciting light the average angle between the transition moment of the retinal chromophore and the plane of the bilayer was calculated to be about 28 degrees. Furthermore, it was shown that chromophore-free apomembrane binds to the lipid bilayer and that its photoelectrical activity can be restored in situ by adding all-trans-retinal to the aqueous phase.

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Photochemistry and dark equilibrium of retinal isomers and bacteriorhodopsin isomers

Sperling

Carl

Rafferty

et al. 1977

Biophys. Struct. Mechanism

153

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Controlled Transfer of Excitation Energy Through Thin Layers

Bücher¹,

Drexhage²,

Fleck³

et al. 1967

Molecular Crystals

208

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Crystal Structure of the Visual Chromophores, 11-cis and all-trans Retinal

Gilardi

Karle

et al. 1971

Nature

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W. Sperling

Retinal isomer ratio in dark-adapted purple membrane and bacteriorhodopsin monomers

Photocurrents generated by bacteriorhodopsin on planar bilayer membranes

Photochemistry and dark equilibrium of retinal isomers and bacteriorhodopsin isomers

Controlled Transfer of Excitation Energy Through Thin Layers

Crystal Structure of the Visual Chromophores, 11-cis and all-trans Retinal

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