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1.
Abstract— Flash photolysis transients of bacteriorhodopsin were recorded with a spectrograph -multielement photodiode array combination and the recordings were analyzed to determine the concentrations of bacteriorhodopsin intermediates "M" and "O" relative to the amount of "bR" cycling (pH 7.1,10–40°C). Estimated concentration time courses were simulated with solutions to two kinetic decay models which could account for photocycle temperature dependence. A unidirectional unbranched decay model overpredicts our estimated levels of [O(r)], whereas a model branched at the "M" intermediate describes each of the later intermediate levels well (with no evidence for an independent "N" form). Our results are consistent with "M" decay regulating the level and rates of change of [bR (t)] and (bR(f)]- and also suggest that two temperature-dependent pathways form "bR" from "M", one directly, and the other indirectly through "O". 相似文献
2.
Abstract -The rate of formation of the M intermediate ( k M ) in the photocycles of bacteriorhodopsin (bR570 ) and of nitrated bacteriorhodopsin (bR532 n ), is measured over the range between pH 6.5 and 11.5. In the case of bR570 , k M is markedly pH dependent, exhibiting a titration-like curve with pK ∽ 10.3. The pH dependency is completely eliminated by nitration. On the basis of previous work by Lemke and Oesterhelt (1981), the effect is attributed to the specific modification of the Tyr 26 residue. The data are rationalized by a mechanism in which deprotonation of Tyr 26 at the stage of the L intermediate constitutes a prerequisite for deprotonation of the retinal-lysine SchifT base. Both reactions are intimately associated with the photo-induced proton pump mechanism. 相似文献
3.
Warren V. Sherman Robert R. Eicke ‡ Shirley R. Stafford ‡ Frank M. Wasacz ‡ 《Photochemistry and photobiology》1979,30(6):727-729
Abstract— Kinetics have been determined for the decay of the terminal phototransients M(410) and O(660) and the reappearance of the BR(570) chromophore in flash-photolyzed aqueous suspensions of light-adapted purple membrane fragments from Halobacterium halobium . The results were fitted to a linear model of 相似文献
4.
D. Beece S. F. Bowne J. Czégé L. Eisenstein H. Frauenfelder D. Good M. C. Marden J. Marque P. Ormos L. Reinisch K. T. Yue 《Photochemistry and photobiology》1981,33(4):517-522
Abstract— We study the effect of solvent viscosity on the kinetics of the photocycle of bacteriorhodopsin (bR) from Halobacterium halobium. Solvent viscosity is altered by changing the glycerol concentration from 20 to 80% glycerol by volume. The kinetics of the photocycle are observed after flash photolysis at four wavelengths at several temperatures between 240 and 315 K. Assuming a sequential model, bR → K -→ L → M → O → bR, Arrhenius plots of the rate coefficients determine the activation enthalpies and frequency factors for each step. Kinetic data from all solvents are considered together and studied as a function of temperature for fixed solvent viscosities. The early steps of the cycle are insensitive to solvent viscosity, →; the later steps are retarded with increasing viscosity. Activation enthalpies are independent of viscosity; the frequency factors are proportional to η−K , where the exponent k 0.25 for the transition K → L, 0.0 for L → M, 0.8 for M → O and 0.5 for O → bR. 相似文献
5.
A. Yu. Sharonov N. V. Tkachenko V. V. Savransky A. K. Dioumaev 《Photochemistry and photobiology》1991,54(6):889-895
Abstract– The kinetics of the absorption changes associated with the perturbation of aromatic acids during the photocycle of bacteriorhodopsin (bR) were studied at room temperature with microsecond time-resolution. Flash experiments with nanosecond excitation at 532 nm were performed on the purple membrane suspension at a number of measuring wavelengths in the spectral range250–630 nm (to monitor both non-chromophore changes and the photocycle kinetics). The kinetic data collected at different wavelengths were simultaneously fitted with a sum of exponentials to obtain time-resolved UV-VIS difference spectra of photocycle intermediates. This approach allowed us to separate kinetically distinct contributions coupled with tryptophan(s) and tyrosine(s) perturbations. Contributions associated with a reversible perturbation of tryptophans appeared with complex (multistep) kinetics during the bRM transitions and relaxed in a single step during the M0 transition. A contribution associated with perturbation of the local environment of tyrosine appeared before the L and relaxed during the Ob̊ transition. 相似文献
6.
Abstract— The picosecond fluorescence kinetics of tryptophan residues in bacteriorhodopsin and some perturbed analogs are measured to study the different tryptophan environments and their changes upon metal cation removal, retinal removal, and M412 trapping. In bacteriorhodopsin, the emission shows four decay components designated Or, C2r, C3r, and C4r in order of increasing lifetimes. The emission wavelength of C3r and C4r is near that found in aqueous solution, while that of C1r is the shortest. The removal of retinal triples the total emission intensity and reduces the number of components to two, suggesting that the observed variation of the lifetimes in bacteriorhodopsin results from the variation of the energy transfer efficiency between different tryptophans and retinal. We conclude that the Or and C2r emission is from the closest tryptophans to the retinal. The quenching of the C3r emission by all metal cations, including those that cannot act as energy acceptors, e.g. Ca2+ , is attributed to protein conformation changes caused by metal cation binding which leads to a stronger energy transfer coupling between tryptophans and retinal. The additional quenching of the C2r emission in Eu3+ bound bacterioopsin is proposed to result from direct energy transfer between tryptophans and Eu3+ . 相似文献
7.
The factors that red shift the absorption maximum of the retinal Schiff base chromophore in the M412 intermediate of bacteriorhodopsin photocycle relative to absorption in solution were investigated using a series of artificial pigments and studies of model compounds in solution. The artificial pigments derived from retinal analogs that perturb chromophore-protein interactions in the vicinity of the ring moiety indicate that a considerable part of the red shift may originate from interactions in the vicinity of the Schiff base linkage. Studies with model compounds revealed that hydrogen bonding to the Schiff base moiety can significantly red shift the absorption maximum. Furthermore, it was demonstrated that although s-trans ring-chain planarity prevails in the M412 intermediate it does not contribute significantly (only ca 750 cm−1 ) to the opsin shift observed in M412 . It is suggested that in M412 , the Schiff base linkage is hydrogen bonded to bound water and/or protein residues inducing a considerable red shift in the absorption maximum of the retinal chromophore. 相似文献
8.
Abstract— The photocycle of bacteriorhodopsin (bR) and its perturbed forms are investigated by a time-resolved resonance Raman study. These experiments were performed in the C=C stretching and in the fingerprint spectral regions for the acid blue, acid purple and deionized forms of bR.
The main observations are as follows: (1) isomerization of the retinal, from all- trans to 13- cis , occurs in native bR and in all of the acid and deionized perturbed bR species; (2) formation of the early intermediates (the K610 and L550 analogues) also occur in native bR and in all of the perturbed species; and (3) deprotonation of the protonated Schiff base (PSB), to give the M412 type intermediate, occurs in native bR, but is inhibited in all of the perturbed bR species on the time-scale of the native bR photocycle.
The results show that isomerization alone is not a prerequisite for the PSB deprotonation process. The observed photocycle, initiated with retinal isomerization, is found to occur from all- trans to 13- cis in all of the perturbed forms of bR. In addition, the results imply that removal of the cations, of an increase in the hydrogen ion concentration, prevent only the PSB deprotonation process and not the formation of earlier cycle intermediates. Some attention is focused on the two blue forms of bR (acid and deionized) due to the fact that their ground-state absorption maximum, unphotolyzed Raman spectra, and Raman spectra changes during the photocycle are all very similar. The similarities between the acid blue and deionized blue forms in the fingerprint region support previous suggestions that both blue species have nearly the same retinal active site. 相似文献
The main observations are as follows: (1) isomerization of the retinal, from all- trans to 13- cis , occurs in native bR and in all of the acid and deionized perturbed bR species; (2) formation of the early intermediates (the K
The results show that isomerization alone is not a prerequisite for the PSB deprotonation process. The observed photocycle, initiated with retinal isomerization, is found to occur from all- trans to 13- cis in all of the perturbed forms of bR. In addition, the results imply that removal of the cations, of an increase in the hydrogen ion concentration, prevent only the PSB deprotonation process and not the formation of earlier cycle intermediates. Some attention is focused on the two blue forms of bR (acid and deionized) due to the fact that their ground-state absorption maximum, unphotolyzed Raman spectra, and Raman spectra changes during the photocycle are all very similar. The similarities between the acid blue and deionized blue forms in the fingerprint region support previous suggestions that both blue species have nearly the same retinal active site. 相似文献
9.
Abstract— Resonance Raman spectra of various M412 species associated with the bacteriorhodopsin photocycle have been obtained. These correspond to the two forms observed during the formation of M4 12 and the two forms that are observed during its decay in absorption experimeents. We do not see any significant difference between the Raman spectra of any of these forms. We therefore conclude that the differences in these species are due to the differences in the protein structure and not in the chromophore. 相似文献
10.
Chung-Lu Hsieh M. A. El-Sayed Malcolm Nicol Mark Nagumo † Jai-Hyung Lee † 《Photochemistry and photobiology》1983,38(1):83-94
Abstract— Resonance Raman spectra of the picosecond bacteriorhodopsin intermediate(s) have been obtained by microbeam, flow and subtraction techniques using a synchronously pumped, cavity-dumped dye laser. Nanosecond spectra also were measured with this laser by cavity dumping without mode-locking. The picosecond spectra in the fingerprint region, which is sensitive to the configuration of the retinal chromophore, differ from spectra of the parent bR570 but could be correlated to the spectrum of bRDA550 , a “13-cis” species which has been determined from spectra of bR570 and bRDA560. The picosecond transient and bRDA550 also are similar in the 950–1050 cm-1“deuteration fingerprint” region when the medium is changed from H2O to D2O. These results suggest that trans—cis isomerization occurs during the 40-ps pulse duration. The shift relative to the parent bR570 in the ethylenic stretch region suggests that the picosecond and nanosecond transients absorb at wavelengths longer than 570 nm. The C band at 1646 cm-1 is found to shift or to broaden upon photolysis in the picosecond time scale. This might suggest a change in the electronic structure of the group and its environment on the picosecond time domain. The nanosecond spectra obtained in this work (with 15-ns pulses) are similar to the spectra previously observed on the 100-ns time scale but are slightly different from the picosecond spectrum. These data suggest that more than one transient species appears on the picosecond-to-nanosecond time scale. The temporal evolution of Raman bands in the fingerprint as well as the low energy (950–1050 cm-1) region and its implications are discussed. 相似文献
11.
D. S. CHERNAVSKII I. V. CHIZHOV R. H. LOZIER † T. M. MURINA A. M. PROKHOROV B. V. ZUBOV 《Photochemistry and photobiology》1989,49(5):649-653
A model of the last parts of the bacteriorhodopsin (bR) photocycle is proposed on the basis of experimental data for the kinetic behavior of the 'O' intermediate during a temperature pulse in distilled water suspension. The model includes the previously proposed (but not well characterized) intermediate 'N' between the 'M' and 'O' states of bR. This intermediate exists in fast temperature-dependent quasi-stationary equilibrium with the red-shifted intermediate 'O' and has a maximum of absorption close to the bR spectrum. 相似文献
12.
Yi N. Zhang Mostafa A. El-Sayed Lawrence J. Stern Thomas Marti Tatushi Mogi H. Gobind Khorana 《Photochemistry and photobiology》1993,57(S1):1027-1031
Abstract— Membrane-buried proline residues are found in many transport proteins. To study their roles in the structure and function of bacteriorhodopsin (bR), effects of the individual substitutions ofPro–50,Pro–91 andPro–186 on the deprotonation and reprotonation kinetics of the Schiffbase (SB) were determined by flash photolysis. The obtained rate constants and the amplitudes of the slow and fast components were compared with those of ebR (wild-type bR, the native protein that is expressed in Escherichia coli). The deprotonation rates of PSB were found to be 10 times faster than that of ebR for P50A, P91A and P91G mutants, and 4 times faster for the P50G mutant. These mutations also increased the initial reprotonation rate of the SB, although the overall change in the reprotonation rate is not as significant as that in the deprotonation rate. Our results indicate thatPro–50 andPro–91, as well asPro–186, are important for the proton-pumping function of bR. 相似文献
13.
László Zimányi Man Chang Baofu Ni Richard Needleman Janos K. Lanyi † 《Photochemistry and photobiology》1992,56(6):1049-1055
The photocycle of the proton pump bacteriorhodopsin contains two consecutive intermediates in which the retinal Schiff base is unprotonated; the reaction between these states, termed M1 and M2, was suggested to be the switch in the proton transport which reorients the Schiff base from D85 on the extracellular side to D96 on the cytoplasmic side (Váró and Lanyi, Biochemistry 30, 5016-5022, 1991). At pH 10 the absorption maxima of both M1 and M2 could be determined in the recombinant D96N protein. We find that M1 absorbs at 411 nm as do M1 and M2 in wild-type bacteriorhodopsin, but M2 absorbs at 404 nm. Thus, in M2 but not M1 the unprotonated Schiff base is affected by the D96N residue replacement. The connectivity of the Schiff base to D96 in the detected M2 state, but not in M1, is thereby established. On the other hand, the photostationary state which develops during illumination of D85N bacteriorhodopsin contains an M state corresponding to M1 with an absorption maximum shifted to 400 nm, suggesting that this species in turn is affected by D85. These results are consistent with the suggestion that M1 and M2 are pre-switch and post-switch states, respectively. 相似文献
14.
Timothy C. Corcoran Paul Dupuis † M. A. El-Sayed 《Photochemistry and photobiology》1986,43(6):655-660
Abstract— The deprotonation kinetics of tyrosine and the protonated Schiff base during the bacteriorho-dopsin photocycle were studied under different perturbations by transient absorption spectroscop Native purple membrane, as well as samples which were deionized (blue) then restored with Na+ or La3+ were used at pH's ranging from 7 to 10 at very low salt concentrations. The results were compared with previous studies at higher ionic strength. The important conclusions can be summarized as follows: (a) The rate constants of both the Schiff base and tyrosine deprotonation are not very sensitive to the changes of conditions. (b) An almost linear relationship is observed between the relative amplitudes of the tyrosine deprotonated during the cycle and the slow component of the Schiff base deprotonation under the different perturbations studied. This was taken to support the two site model for the protonated Schiff base, one near tyrosine and the other near its ionized form. (c) The pKa value determined from the ratio of the amplitude of the fast to the slow component of the Schiff base deprotonation is found to decrease with increasing ionic strength of the medium. At extremely low ionic strength, it was found to equal that of the tyrosine phenolic group in solution. 相似文献
15.
S. Druckmann R. Renthal M. Ottolenghi W. Stoeckenius 《Photochemistry and photobiology》1984,40(5):647-651
Abstract —Nanosecond electron beam pulses cause radiolytic reduction of the retinal Schiff base in bacteriorhodopsin. The effects of different scavengers show that both H atoms and the formate radical anion can act as the reducing species. Model system studies on the radiolysis of retinal indicate transient formation of a retinal radical anion and suggest an analogous two-step reaction in bR. Delocalization of the radical in the polyene system and reaction with surrounding groups would account for the relatively low yield of reduced Schiff base and the appearance of intra- and intermolecular crosslinks in irradiated bacteriorhodopsin. 相似文献
16.
A major problem in establishing a kinetic scheme for photo-induced reaction sequences is the determination of the unknown number of important intermediates. It is shown that in addition to the χ2 -value and the distribution of the residuals obtained from a least-squares fit of the experimental curves by a sum of exponentials, the stability of the apparent rates towards an increase of the number of exponentials with arbitrary test values can be used as an additional criterion. Experimental data describing the photocycle of bacteriorhodopsin after the appearance of intermediate K ( t > 1 μs) are analysed with the described algorithm. It is found that 5 exponentials are necessary and sufficient for the fit. 相似文献
17.
Abstract— Purple membrane (PM) suspension and artificial bilayer lipid membranes (BLM) containing PM sheets were treated with melittin. Both the decaying of the photocycle intermediate M412 and proton translocation were inhibited by melittin: The yields and rate of the slow-decaying component of M412 (M412s) together with the proton release and its uptake rate were significantly decreased, but the rate of the fast-decaying component of M412 (M4120 had only slight changes. Relatively high concentrations of melittin could cause aggregation in PM suspensions. Addition of melittin to a BLM solution increased the continuous photopotential signal but decreased the transient signal. We suggest that there might exist strong interactions between melittin and bacteriorhodopsin in addition to the melittin–lipid action. On the other hand, the results also indicate that proton translocation was more likely to be coupled with M412s and both were more sensitive to the changes caused by the melittin–PM interaction than was M412f. 相似文献
18.
用不锈钢/电沉积紫膜薄膜/含水胶(电介质)/钢型菌紫质光电池研究了作用于N-端表面(紫膜外表面)的钾、镁、镧离子对菌紫质光电响应的影响。在所测条件下光电极性均与质子泵方向一致。光电压幅值是离子浓度依赖性的,对钾、镁、镧离子均存在极大值浓度,它们之间有数量级的差异;依赖性曲线趋势和极大值浓度均各自分别与溶液中菌紫质的质子泵效率对阳离子浓度的这种依赖性相一致。不过,光电响应对作用于C-端表面的这些离子不存在上述的浓度依赖性。上述的两种依赖性成相关性说明:电沉积紫膜薄膜中菌紫质的光电响应主要来自质子泵运而非非质子离子的贡献;存在一合适的离子浓度使菌紫质的光电响应有极大值。用质子泵结构域模型和扩散双电层理论对这种依赖性进行的讨论认为:金属阳离子的结合与屏蔽两种效应可以解释这种依赖性。 相似文献
19.
L. A. Drachev † A. D. Kaulen H. G. Khorana T. Moci N. V. Postanogova V. P. Skulachev L. J. Stern 《Photochemistry and photobiology》1984,39(6):741-744
Abstract
Arginine residues 82 and 227 in bacteriorhodopsin were replaced by glutamine residues, using the site-directed mutagenesis techniques. Mutant bacteriorhodopsins were found to be competent in formation and decomposition of the photocycle M412 intermediate as well as in generation of photoelectric potential provided that pH of the medium is sufficiently high. Lowering of pH results in transition of bacteriorhodopsin into a blue acidic form which cannot produce M412 and photo-potential. The p K values of these transitions for Arg-227 → Gln and Arg-82 → Gln mutants are shifted correspondently for 1 and 4 pH units to a higher pH region in comparison with native bacteriorhodopsin. The rate of the M412 formation in both mutants was similar to that in the native protein. As to M412 decay, it is much slower in Arg-227 → Gln mutant than in native and Arg-82 → Gln bacteriorhodopsins. In all cases, the decay depends only slightly upon pH. It is concluded that Arg-82 is involved in maintenance of a bacteriorhodopsin structure that is resistant to the pH decrease down to 4 whereas Arg-227 is required first of all for the process of Schiff base reprotonation. 相似文献
Arginine residues 82 and 227 in bacteriorhodopsin were replaced by glutamine residues, using the site-directed mutagenesis techniques. Mutant bacteriorhodopsins were found to be competent in formation and decomposition of the photocycle M412 intermediate as well as in generation of photoelectric potential provided that pH of the medium is sufficiently high. Lowering of pH results in transition of bacteriorhodopsin into a blue acidic form which cannot produce M412 and photo-potential. The p K values of these transitions for Arg-227 → Gln and Arg-82 → Gln mutants are shifted correspondently for 1 and 4 pH units to a higher pH region in comparison with native bacteriorhodopsin. The rate of the M412 formation in both mutants was similar to that in the native protein. As to M412 decay, it is much slower in Arg-227 → Gln mutant than in native and Arg-82 → Gln bacteriorhodopsins. In all cases, the decay depends only slightly upon pH. It is concluded that Arg-82 is involved in maintenance of a bacteriorhodopsin structure that is resistant to the pH decrease down to 4 whereas Arg-227 is required first of all for the process of Schiff base reprotonation. 相似文献
20.
Angelika Schimz Walter Sperling Eilo Hildebrand Dorothea Köhler-hahn 《Photochemistry and photobiology》1982,36(2):193-196
Abstract Blocking in vivo synthesis of retinal by addition of nicotine to the culture medium leads to the loss of photobehavior in Halobacterium halobium. Addition of rrans -retinol or frans-retinol2 (3,4-dehy-droretinol) restores the responses to light decreases in the green-yellow spectral range. Action spectra of the reconstituted retinal- and retinal2 -photosystem show maximal sensitivity at 565 and 580 nm, respectively. Addition of retinol or retinol2 also restores the formation of bacteriorhodopsin (BR) or bacteriorhodopsin2 (BR2 = 3,4-dehydroretinal-bacterio-opsin complex). The absorption spectra of BR and BR2 , measured in isolated membranes, as well as in living bacteria, show maxima at 568 nm (BR) and at about 600 nm (BR2 ), respectively. Comparison of the action spectrum of the retinal2-containing sensory photosystem with the absorption spectrum of BR2 suggests that a retinal pigment different from BR is responsible for the photosensory behavior to green-yellow light. 相似文献