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1.
The orientations of the retinyl and heme chromophores of bacteriorhodopsin and cytochrome b-561 of the brown membrane of Halobacterium halobium have been determined by linear dichroic spectroscopy of oriented brown membrane films. Both chromophores exhibit cylindrical symmetry with respect to the membrane normal. However, the retinyl transition dipole moment is polarized at an angle of 20 to 24 ° with respect to the plane of the membrane while the plane of the heme is oriented nearly perpendicular to the membrane plane. Therefore, the orientation of retinal bound to bacterio-opsin in the brown membrane is approximately the same as in the purple membrane. This is supportive of our previous conclusions that the fine structures of the bacteriorhodopsins of these membranes are very similar in spite of differences in the composition and structure of the two membranes. The orientation of the heme plane of the membrane-bound cytochrome b-561 is very similar to orientations of several membrane-bound heme proteins that are involved in electron transfer processes and may be suggestive of its function in the brown membrane. Analysis of the linear dichroic spectrum over the entire bacteriorhodopsin band using an exciton formalism is in accord with the energy separation of the in-plane and out-of-plane excitonic transitions being less than 5 nm. Since a similar energy separation was reported for the purple membrane, the relative positions of the retinals must be approximately the same in both membranes. A similar analysis of the Soret region, based on the existence of two degenerate mutually perpendicular porphyrin transitions, indicates that the energy separation should be from 5 to 20 nm. However, the smaller value is unlikely for it would imply very large circular dichroic bands not yet encountered in any heme proteins.  相似文献   

2.
In the presence of halogenated general anaesthetics such as enflurane and halothane, the spectral properties of the bacteriorhodopsin pigment contained in the purple membranes of Halobacterium halobium are strongly modified. It is reversibly transformed into a red-coloured species absorbing maximally at 480 nm, at the expense of its characteristic 570-nm absorption band. The ultraviolet fluorescence of bacteriorhodopsin has been used to probe the structural modifications that are reflected by this spectral change. Our results show that they are very small and do not perturb the energy transfer dynamics which take place between the aromatic amino acid residues and the retinyl chromophore. The fluorescence properties of anaesthetic-treated bacteriorhodopsin are dominated by the quenching properties of the halogenated hydrocarbon, which are obvious even at anaesthetic concentrations under those needed to induce a spectral change in the bacteriorhodopsin chromophore. This does not rule out direct interaction between anaesthetics and bacteriorhodopsin, but it indicates that the chromophoric site might well not be their primary target.  相似文献   

3.
The transmembrane orientation of the human erythrocyte glucose transporter was assessed based on polarized Fourier transform infrared and ultraviolet circular dichroism spectroscopic data obtained from oriented multilamellar films of the reconstituted transporter vesicles. Infrared spectra revealed that there are distinct vibrations for alpha-helical structure while the vibrational frequencies specific to beta-structure are characteristically absent. Analysis of linear dichroism of the infrared spectra further indicated that these alpha-helices in the transporter are preferentially oriented perpendicular to the lipid bilayer plane forming an effective tilt of less than 38 degrees from the membrane normal. Such a preferential orientation was further supported by ultraviolet circular dichroism spectra which reveal that the 208 nm Moffit band found in the detergent-solubilized preparation is absent in the film preparation. Linear dichroism data further indicated that D-glucose, a typical substrate, further reduces this effective tilt angle slightly.  相似文献   

4.
Aqueous suspensions of fragments of the purple membrane of Halobacterium halobium are exposed to short electric field pulses. The relaxation kinetics of the induced dichroism are studied as a function of environmental factors such as temperature, medium viscosity, and treatment of the membranes with glutaraldehyde and dimethylsulfoxide. The data indicate that the alignment of the retinyl chromophore is due to orientation of the whole membrane fragments with their planes parallel to the electric field, as well as to an intramembrane orientation of bacteriorhodopsin molecules (or of a part of such molecules). Wavelength effects on the dichroic ratio show that weak, out of (membrane) plane components contribute to the chromophore spectrum on the red side (lambda greater than 560 nm) of the main (alpha) absorption band as well as the range of the beta band (lambda less than 480 nm). The former effect is attributed to exciton interactions, while the latter is assigned to the contribution of a transition to the lowest 1Ag+ state ("cis" band). It is also concluded that the transition moment along the short (kappa) axis, in the plane of the polyene molecule, has a substantial component perpendicular to the membrane plane.  相似文献   

5.
Leo D. Kahn  Shu-I Tu 《Biopolymers》1984,23(4):707-718
An electric birefringence study was carried out on aqueous suspensions of the purple membrane of Halobacterium halobium. In addition to the characterization of both native and modified membrane samples, the dependence of electric birefringence on pH and ionic strength was also investigated. The results indicate that purple membrane shows electric birefringence at a field strength as low as 200 V/cm. The permanent dipole moment and polarizability ranged from 20,500 debyes and 1.01 × 10?14 cm3 for a purple membrane concentration of 0.40 mg/mL to 41,000 debyes and 2.05 × 10?14 cm3 for a concentration of 0.80 mg/mL. It was also found that removal of the retinyl group of bacteriorhodopsin substantially decreases but does not eliminate the electric birefringence of the membrane. The solubilization of the membrane by Triton X-100, however, completely abolishes the electric birefringence. These experiments indicate that there is an interaction between adjacent bacteriorhodopsin molecules within the purple membrane via the retinyl chromophore moiety that builds up the permanent dipole moment. They also suggest that there are two types of response when purple membrane suspensions are placed in an electric field. One is an alignment of the disk-shaped particles with the field. The other is a stacking of the particles following their alignment by the electric field, which is promoted by the induced dipole moment.  相似文献   

6.
A water-soluble yellow protein, previously discovered in the purple photosynthetic bacterium Ectothiorhodospira halophila, contains a chromophore which has an absorbance maximum at 446 nm. The protein is now shown to be photoactive. A pulse of 445-nm laser light caused the 446-nm peak to be partially bleached and red-shifted in a time less than 1 microsecond. The intermediate thus formed was subsequently further bleached in the dark in a biphasic process occurring in approximately 20 ms. Finally, the absorbance of native protein was restored in a first-order process occurring over several seconds. These kinetic processes are remarkably similar to those of sensory rhodopsin from Halobacterium, and to a lesser extent bacteriorhodopsin and halorhodopsin; although these proteins are membrane-bound, they have absorbance maxima at about 570 nm, and they cycle more rapidly. In attempts to remove the chromophore for identification, it was found that a variety of methods of denaturation of the protein caused transient or permanent conversion to a form which has an absorbance maximum near 340 nm. Thus, by analogy to the rhodopsins, the absorption at 446 nm in the native protein appears to result from a 106-nm red shift of the chromophore induced by the protein. Acid denaturation followed by extraction with organic solvents established that the chromophore could be removed from the protein. It is not identical with all-trans-retinal and remains to be identified, although it could still be a related pigment. The E. halophila yellow protein has a circular dichroism spectrum which indicates little alpha-helical secondary structure (19%).(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

7.
In order to determine the origin of the bisignate CD spectra of native purple membrane, heterochromophoric analogues containing bacteriorhodopsin regenerated with native all-trans-retinal and retinal analogues were investigated. The data collected for the purple membrane samples containing two different chromophores suggest the additive character of the CD spectra. This conclusion was supported by a series of spectra using 5,6-dihydroretinal and 3-dehydroretinal and by using 33% regenerated PM in buffer and in presence of osmolytes. Our results support the idea of conformational heterogeneity of the chromophores in the bR in the trimer, suggesting that the three bR subunits in the trimer are not conformationally equal, and therefore, the bisignate CD spectrum of bR in the purple membrane occurs rather due to a superposition of the CD spectra from variously distorted bR subunits in the trimer than interchromophoric exciton-coupling interactions.  相似文献   

8.
The circular dichroism (CD) of cytochrome oxidase in solution indicates the presence of both alpha-helix (approximately 37%) and B-sheet (approximately 18%). In oriented films generated by the isopotential spin-dry method, the CD measured normal to the film shows a marked decrease in the negative bands at 222 and 208 nm, and a decrease and red shift in the positive band near 195 nm, relative to solution spectra. These features are characteristic of alpha-helices oriented with their helix axes along the direction of light propagation. A quantitative estimate of the orientation, based on the ratio of the rotational strengths of the 208-nm band in the film and in solution, leads to an average angle between the helix axis and the normal to the film, phi alpha of approximately 39 degrees. A method for analyzing infrared (IR) linear dichroism is developed that can be applied to proteins with comparable amounts of alpha-helix and beta-sheet. From analysis of the amide I band, phi alpha is found to lie between 20 and 36 degrees, depending on the angle that the amide I transition moment forms with the helix axis. A survey of the literature on the amide I transition moment direction indicates that a value of approximately 27 degrees is appropriate for standard alpha-helical systems, such as those in cytochrome oxidase. A larger value, near 40 degrees, is reasonable for systems that have distorted alpha-helices, as evidenced by amide I frequencies above 1,660 cm-1, as is the case of bacteriorhodopsin. This conclusion supports phi alpha approximately 36 degrees from IR linear dichroism, in agreement with the CD results. Linear dichroism in the amide I and amide II region indicates that the beta-sheet in cytochrome oxidase is oriented with the carbonyl groups nearly parallel to the plane of the membrane and the chain direction inclined at approximately 40 degrees to the normal. Comparison of these results with tentative identification of transmembrane helices from sequence data suggests that either some of the transmembrane helices are inclined at an unexpectedly large angle to the normal, or the number of such helices has been overestimated. Some putative transmembrane helices may be beta-strands spanning the membrane.  相似文献   

9.
The orientation of the 568 nm transition dipole moment of the retinal chromophore of bacteriorhodopsin has been determined in purple membranes from Halobacterium halobium and in reconstituted vesicles. The angle between the 568 nm transition dipole moment and the normal to the plane of the membrane was measured in two different ways.In the first method the angle was obtained from transient dichroism measurements on bacteriorhodopsin incorporated into large phosphatidylcholine vesicles. Following flash excitation with linearly polarized light, the anisotropy of the 568 nm ground-state depletion signal first decays but then reaches a time-independent value. This result, obtained above the lipid phase transition, is interpreted as arising from rotational motion of bacteriorhodopsin which is confined to an axis normal to the plane of the membrane. It is shown that the relative amplitude of the time-independent component depends on the orientation of the 568 nm transition dipole moment. From the data an angle of 78 ° ± 3 ° is determined.In the second method the linear dichroism was measured as a function of the angle of tilt between the oriented purple membranes and the direction of the light beam. The results were corrected for the angular distribution of the membranes within the oriented samples, which was determined from the mosaic spread of the first-order lamellar neutron diffraction peak. In substantial agreement with the results of the transient dichroism method, linear dichroism measurements on oriented samples lead to an angle of 71 ° ± 4 °.No significant wavelength dependence of the dichroic ratio across the 568 nm band was observed, implying that the exciton splitting in this band must be substantially smaller than the recently suggested value of 20 nm (Ebrey et al., 1977).The orientation of the 568 nm transition dipole moment, which coincides with the direction of the all-trans polyene chain of retinal, is not only of interest in connection with models for the proton pump, but can also be used to calculate the inter-chromophore distances in the purple membrane.  相似文献   

10.
The absorption and circular dichroism of the purple membrane in solution and the linear and circular dichroism of the purple membrane oriented in a film were used to detect changes in the membrane protein structure and membrane organization in the pH range of 2.4 to 12.6. Main findings are (a) the membrane protein structure is stable at every level of organization to pH changes over the range of 5.0 to 8.5. (b) Tertiary structural changes occur in the membrane protein structure in the pH range of 2.4 to 5.0 and 8.5 to 11.8 without any secondary structural involvement. (c) An irreversible change occurs in the membrane organization in the pH range of 11.8 to 12.6 involving large tertiary and secondary structural changes in the membrane protein. (d) The retinyl chromophore is influenced by a nearby ionizable group. (e) The membrane crystalline structure is highly stable to pH perturbation except at the high pH range of 11.0 to 11.8.  相似文献   

11.
Polarized, low-temperature Fourier transform infrared (FTIR) difference spectroscopy has been used to investigate the structure of bacteriorhodopsin (bR) as it undergoes phototransitions from the light-adapted state, bR570, to the K630 and M412 intermediates. The orientations of specific retinal chromophore and protein groups relative to the membrane plane were calculated from the linear dichroism of the infrared bands, which correspond to the vibrational modes of those groups. The linear dichroism of the chromophore C=C and C-C stretching modes indicates that the long axis of the polyene chain is oriented at 20-25 degrees from the membrane plane at 250 K and that it orients more in-plane when the temperature is reduced to 81 K. The polyene plane is found to be approximately perpendicular to the membrane plane from the linear dichroism calculations of the HOOP (hydrogen out-of-plane) wags. The orientation of the transition dipole moments of chromophore vibrations in the K630 and M412 intermediates has been probed, and the dipole moment direction of the C=O bond of an aspartic acid that is protonated in the bR570----M412 transition has been measured.  相似文献   

12.
Thermal unfolding experiments on bacteriorhodopsin in mixed phospholipid/detergent micelles were performed. Bacteriorhodopsin was extracted from the purple membrane in a denatured state and then renatured in the micellar system. The purpose of this study was to compare the changes, if any, in the structure and stability of a membrane protein that has folded in a nonnative environment with results obtained on the native system, i.e., the purple membrane. The purple membrane crystalline lattice is an added factor that may influence the structural stability of bacteriorhodopsin. Micelles containing bacteriorhodopsin are uniformly sized disks 105 +/- 13 A in diameter (by electron microscopy) and have an estimated molecular mass of 210 kDa (by gel filtration HPLC). The near-UV CD spectra (which is indicative of tertiary structure) for micellar bacteriorhodopsin and the purple membrane are very similar. In the visible CD region of retinal absorption, the double band seen in the spectrum of the purple membrane is replaced with a broad positive band for micellar bacteriorhodopsin, indicating that in micelles, bacteriorhodopsin is monomeric. The plot of denaturational temperature vs. pH for micellar bacteriorhodopsin is displaced downward on the temperature axis, illustrating the lower thermal stability of micellar bacteriorhodopsin when compared to the purple membrane at the same pH. Even though micellar bacteriorhodopsin is less stable, similar changes in response to pH and temperature are seen in the visible absorption spectra of micellar bacteriorhodopsin and the purple membrane. This demonstrates that changes in the protonation state or temperature have a similar affect on the local environment of the chromophore and the protein conformation.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

13.
Sequential bleaching in the presence of hydroxylamine and subsequent regeneration of the purple membrane of Halobacterium halobium was studied by concomitant monitoring of its absorption and circular dichroic spectra in order to ascertain its effects on protein interaction(s) (which may result in possible excitonic interaction between the retinal chromophores), chromophore-apoprotein interaction(s), and protein conformational stability in the membrane. It was concluded that (a) although experimental results are consistent with an exciton mechanism for the interaction between retinal π - π* (NV1) transition movements in the purple membrane, no evidence for such a mechanism for interaction between retinaloxime transition moments is apparent in the case of the bleached membrane; (b) the bacteriorhodopsin molecules organized in clusters of three in the membrane appear to bleach simultaneously; (c) the retinaloxime produced on bleaching the purple membrane in the presence of hydroxylamine is strongly optically active, because of dissymmetry-inducing and/or -selecting constraints on the chromophore by a component of the membrane (most likely the apoprotein), and when the membrane is regenerated by the addition of retinal, these constraints are lost; and (d) evidence from ultraviolet absorption and circular dichroic spectra suggests that the membrane apoprotein undergoes appreciable conformational changes involving tertiary structure on bleaching with no significant secondary structure involvement. These results are compared with recently reported results from this laboratory on the effects of bleaching on the bovine rod outer segment disk membrane structure.  相似文献   

14.
Rosell FI  Boxer SG 《Biochemistry》2003,42(1):177-183
Polarized absorption spectra of orthorhombic crystals of wild-type green fluorescent protein (GFP) were measured between 350 and 520 nm to obtain information on the directions of the electronic transition dipole moments ((-->)m) of the chromophore relative to the molecular axes. The transition dipole moment orientation is a basic spectroscopic parameter of relevance to biologists when interpreting F?rster-type fluorescence resonance energy transfer data and for comparing absorbance and fluorescence spectra of GFP with quantum chemical calculations. Maximal extinction was obtained throughout the spectrum when the polarization direction of the electric vector of incident light was parallel to the c-axis of the crystal. The transition dipole moments were assumed to be parallel to the plane of the chromophore. With this assumption and the measured dichroic ratios in the crystals, the transition dipole moments associated with the neutral (lambda(max) = 398 nm) and anionic (lambda(max) = 478 nm) forms of the chromophore were found to subtend angles of approximately 26 degrees and 13 degrees (counterclockwise), respectively, with the vector that joins the phenolic and imidazolinone oxygen atoms of the chromophore.  相似文献   

15.
Specific amino acid sequence segments have been assigned to locations in the structural map of bacteriorhodopsin using two-dimensional neutron diffraction data and a model building analysis. Models are constructed computationally by building specific regions of the amino acid sequence as alpha helices and then positioning the helices on axes indicated by the density map of Henderson and Unwin (Nature [Lond.]. 1975, 257:28-32). Neutron diffraction data were collected from samples of stacked, oriented "native" purple membranes as well as purple membranes containing different kinds of deuterated amino acids. Models differing in the assignments of helices to specific axes and in rotations of the helices about those axes were tested against the neutron data using a weighted residual factor to rank the models. This residual factor was calculated between observed and predicted intensity differences for pairs of data sets. Using this approach, a small set of related models has been found that predicts the observed intensity changes between five independent data sets. These models are inconsistent with the proposed locations of the retinal chromophore and the carboxyl terminus and with any of the previously proposed models for bacteriorhodopsin.  相似文献   

16.
Techniques for purifying teh purple membrane of Halobacterium halobium are given. This purple membrane contains a chromoprotein with a retinal prosthetic group similar to rhodopsin, the chromprotein found in the visual systems of higher invertebrates and vertebrates. The described purple membrane isolation procedures yield a highly purified preparation as determined by transmitting electron microscopy and gel electrophoresis. Critical analysis of the absorption spectra of the purple membrane was also employed to establish criteria of purity for the preparation. The visible absorption spectra of the purified purple membrane preparation in buffer was found to have a maximum at 559 nm which shifted to 567 nm on light exposure. No indication of any spectral perturbation arising from bacterioruberin-containing membrane, the major contaminant in purple membrane preparations, was found. Furthermore, the ratio of protein aromatic amino acid absorbance at 280 nm to chromophore absorbance at 567 nm was found to be 1.5 in light-exposed preparations compared to the previously reported ratio of 2.3.-3 The decrease in the value of this ratio is also indicative of an increase in the purity of the purple membrane preparation.  相似文献   

17.
Synthetic pigment analogues of the purple membrane protein.   总被引:1,自引:0,他引:1       下载免费PDF全文
Nonphysiological analogues of retinal have been shown to form pigments in reactions with the apoprotein of the purple membrane of Halobacterium halobium. Both the all-trans and 13-cis isomers of a retinal analogue, having an elongated chain with an extra double bond, formed pigments. Unlike the native all-trans and 13-cis retinal1-based pigments, the new pigments were not interconvertible with each other and were unstable against hydroxylamine. When incorporated into phospholipid vesicles, they showed no proton pumping activity upon illumination. The ability of the extended-length retinal to form pigments contrasts with its nonreactivity with opsin (apoprotein of rhodopsin), suggesting a less stringent binding site for the purple membrane chromophore. All-trans retinal2 also combined with bleached purple membrane to form a blue pigment absorbing at ca. 590 nm. Like the native purple membrane, the blu membrane showed proton pumping activity upon illumination in phospholipid vesicles.  相似文献   

18.
Techniques for purifying the purple membrane of Halobacterium halobium are given. This purple membrane contains a chromoprotein with a retinal prosthetic group similar to rhodopsin, the chromoprotein found in the visual systems of higher invertebrates and vertebrates. The described purple membrane isolation procedures yield a highly purified preparation as determined by transmitting electron microscopy and gel electrophoresis. Critical analysis of the absorption spectra of the purple membrane was also employed to establish criteria of purity for the preparation. The visible absorption spectra of the purified purple membrane preparation in buffer was found to have a maximum at 559 nm which shifted to 567 nm on light exposure. No indication of any spectral perturbation arising from bacterioruberin-containing membrane, the major contaminant in purple membrane preparations, was found. Furthermore, the ratio of protein aromatic amino acid absorbance at 280 nm to chromophore absorbance at 567 nm was found to be 1.5 in light-exposed preparations compared to the previously reported ratio of 2.0.3 The decrease in the value of this ratio is also indicative of an increase in the purity of the purple membrane preparation.  相似文献   

19.
The difference in the surface charge distribution between light-adapted and dark-adapted purple membranes was investigated with electric dichroism measurements from approximately pH 5 to pH 11. Purple membrane sheets in solution are oriented in a weak electric field by their permanent dipole moment, which is due to the charge distribution of the membrane surfaces and/or within the membrane. The degree of orientation of purple membrane sheets was obtained from the measurement of “electrical anisotropy” of retinal chromophore in the membranes. At about pH 7, there was no difference in the “electric anisotropy” between light- and dark-adapted purple membranes. At about pH 9, the electric anisotropy of dark-adapted purple membrane was larger than that of light-adapted purple membrane. But at around pH 6 the difference was opposite. Linear dichroism experiments did not show any change of retinal tilt angle with respect to the membrane normal between the two forms from approximately pH 5 to pH 10. This result indicates that the changes in the “electric anisotropy” are not due to the change of retinal tilt angle, but due to the change in the permanent dipole moment of the membrane. To estimate the change in surface charges from the permanent dipole moment, we investigated the difference of the permanent dipole moment between the native purple membrane and papain-treated purple membrane in which negative charges in the cytoplasmic-terminal part are removed. This estimation suggests that this light-dark difference at around pH 9 can be accounted for by a change of ~0.5 electric charge per bacteriorhodopsin (bR) molecule at either of the two surfaces of the membrane. We also found from pH electrode measurements that at about pH 8 or 9 light adaptation was accompanied by an uptake of ~0.1 protons per bR. A possible movement of protons during light-dark adaptation is discussed. The direction of the permanent dipole moment does not change with papain treatment. The permanent dipole moment in papain-treated purple membrane is estimated to be 27 ±2 debye/bR.  相似文献   

20.
The three-dimensional crystallization of bacteriorhodopsin was systematically investigated and the needle-shaped crystal form analysed. In these crystals the M-intermediate forms 10 times faster and decays 15 times more slowly than in purple membranes. Polarized absorption spectra of the crystals were measured in the dark and light adapted states. A slight decrease in the angle between the transition moment and the membrane plane was detected during dark adaptation. The crystallization of a mutated bacteriorhodopsin, in which the aspartic acid at residue 96 was replaced by asparagine, provided crystals with a long lived M-intermediate. This allowed polarized absorption measurements of the M-chromophore. The change in the polarization ratio upon formation of the M-intermediate indicates an increase in the angle between the main transition dipole and the membrane plane by 2.2 degrees +/- 0.5, corresponding to a 0.5 A displacement of one end of the chromophore out of the membrane plane of the bacteriorhodopsin molecule.  相似文献   

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