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11

Electronic Resource

Optical and electrical studies on dansyllysine-valinomycin in thin lipid membranes (1976)

Pohl, G. W. ; Knoll, W. ; Gisin, B. F. ; [et al.]

Springer

European biophysics journal 2 (1976), S. 119-137

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ISSN: 1432-1017

Keywords: Valinomycin ; Lipid membranes ; Fluorescence ; Relaxation methods

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Summary Dansyllysine-valinomycin, a fluorescent analogue of the ionophore valinomycin was synthesized and incorporated into black lipid membranes. Its concentration inside the membrane was measured fluorometrically and was also determined from electrical relaxation experiments, which were analyzed on the basis of a previously proposed carrier model. The results of both methods agreed within less than one order of magnitude. This appears satisfactory in view of the sources of error inherent in both procedures. A conductance increment per carrier molecule of about 3 · 10−17 Ω−1 was obtained for dansyllysine-valinomycin in diphytanoyllecithin membranes at 25

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00863705

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12

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Sensitivity and photopigments of R1-6, a two-peaked photoreceptor, inDrosophila, Calliphora andMusca (1977)

Stark, William S. ; Ivanyshyn, Austina M. ; Greenberg, Robert M.

Springer

Journal of comparative physiology 121 (1977), S. 289-305

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Low vitamin A rearing decreases sensitivity and eliminates the ultraviolet but not the blue sensitivity maximum in R1-6 inDrosophila, Calliphora andMusca (Figs. 2–4). Spectral adaptation functions for control and vitamin A deprived flies yielded derived stable metarhodopsin absorption spectra from spectral sensitivity. Metarhodopsin has a long wavelength maximum and also has an ultraviolet maximum especially in the normal vitamin A condition (Figs. 2–4). M-potentials (fast early-receptor-like potentials) were obtained (Fig. 1) from all three genera in normal vitamin A rearing and were used for spectral adaptation studies (Figs. 2–3); the latter data are approximate inverses of sensitivity based spectral adaptation data. Thus, sensitivity must reflect proportion of rhodopsin, with metarhodopsin being inert in receptor potential generation. Vitamin A effects on spectral functions were further investigated inDrosophila. Ultraviolet (370 nm) and visible (470 nm) sensitivities varied approximately linearly with dietary vitamin A dose (Fig. 5); 370 nm sensitivity decreased more than 470 nm sensitivity at lower doses. Increasing adaptation intensities of 370 and 470 nm caused parallel decreases in spectral sensitivity assayed at 370 and 470 nm in normal vitamin A flies (Fig. 6); the adapting intensities were sufficient to convert photopigment. These and previous results suggest that the two R1-6 spectral peaks are ultimately mediated by one rhodopsin. R1-6 rhabdomeres were structurally similar in high and low vitamin A flies but emitted a long wavelength fluorescence to ultraviolet excitation in high vitamin A flies only (Fig. 7). These results suggest some form of energy transfer; i.e., a carotenoid may capture ultraviolet quanta and transfer energy to rhodopsin via inductive resonance. Spectral adaptation data are consistent with a calculated high rhabdomeric optical density of ECL=0.26 (i.e., 45% of incident light is absorbed) derived from presently available data onDrosophila. Calculations show electro-retinographic sensitivity to be extremely high, perhaps measurable at less than one absorbed quantum per rhabdomere.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00613010

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13

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Sensitivity and adaptation in R7, an ultraviolet photoreceptor, in theDrosophila retina (1977)

Stark, William S.

Springer

Journal of comparative physiology 115 (1977), S. 47-59

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Receptor deficient mutants and chromatic adaptation were used to isolate the contribution of R7 to the electroretinogram (ERG) ofDrosophila. R7 was found to be a single-peaked ultraviolet (UV) receptor (Fig. 1). Photoconversion of the UV absorbing rhodopsin (R) to its stable 470–495 nm metarhodopsin (M) was shown to elicit a long-lived negative (depolarizing) afterpotential (Fig. 3) while inactivating R7. Photoreconversion ofM toR reactivates R7 (Fig. 2) and repolarizes the ERG (Fig. 3). The intensities of light needed to elicit afterpotentials by photointerconverting R7 photopigment were found to be about 2 log units greater than for R1-6 photopigment (Fig. 4). Vitamin A deprivation decreases R7 (as well as R8) sensitivity by about 2 log units (through decreased photopigment levels) without changing spectral sensitivity shape (Fig. 5). Vitamin A deprivation further eliminates the light-induced inactivation of R7 allowing experiments designed to characterize the in vivo spectral absorption of R7M. R7M was found to have UV and 495 nm maxima (Fig. 6). No polarization sensitivity was detected in the R7 ERG component. The adaptational properties of R7 are similar to the properties previously established for R1-6 but different from the properties of R8.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00667784

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14

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Electrophysiological characterization ofDrosophila ocelli (1978)

Hu, Karin G. ; Reichert, Heinrich ; Stark, William S.

Springer

Journal of comparative physiology 126 (1978), S. 15-24

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Drosophila have 3 simple eyes, ocelli, located on the vertex of the head, in addition to 2 compound eyes. We determined ocellar function using the electroretinogram (ERG) and vision mutants. The ERG waveform in response to a 1 s stimulus was a slow negative (receptor depolarizing) potential followed by a return to baseline at light-off (Fig. 1). During long stimuli there was an exponential decay to baseline after the initial negative deflection. At light-off there was a positive overshoot and return to baseline (Fig. 2). During a long stimulus the ERG reflected stepwise changes in intensity, with a negative response to an increase in intensity and positive polarization to a decrease (Fig. 3). The ERG thus reflects extraction of intensity change information. The ocellar ERG waveforms (Fig. 4) and intensity-response functions (Fig. 5) were similar across wavelengths ranging from 370 to 520 nm. The ocellar spectral sensitivity peaks around 350–370 nm (ultraviolet) and 445 nm (blue) (Fig. 6). Chromatic adaptation with intense 370 or 445 nm did not selectively reduce 370 or 445 nm peak sensitivities (Fig. 7). These findings offer no support for more than one ocellar receptor type. In additional experiments, bright 570 nm adaptation was found to increase responsivity relative to bright short wavelength adaptation. These wavelength-specific effects were elicited even during anoxia suggesting wavelength-dependent photopigment interconversions (Fig. 8). Spectral adaptation data were obtained suggesting that ocelli have a stable (non-bleaching) metarhodopsin. Spectral adaptation and sensitivity data allowed an approximation of the metarhodopsin spectrum which has long wavelength and ultraviolet maxima (Fig. 7). Comparisons between the ERG waveforms and spectral sensitivities of normal and visual mutantDrosophila suggest that the absence of compound eye receptor types has no effect on the ocellar ERG. Also, strains with or without screening pigments do not show significant differences. However, 2 mutants with abnormal compound eye receptor potentials had ocellar abnormalities.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01342646

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15

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Isolation of adaptation mechanisms and photopigment spectra by vitamin A deprivation inDrosophila (1976)

Stark, William S. ; Zitzmann, William G.

Springer

Journal of comparative physiology 105 (1976), S. 15-27

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Intense short wavelength adaptation converts rhodopsin to a long wavelength absorbing stable metarhodopsin and inactivates R1–6 photoreceptors inDrosophila. In addition to decreasing sensitivity, vitamin A deprivation eliminates this short wavelength induced R1–6 inactivation. A model (Fig. 4) explains this adaptational difference of vitamin A deprivedDrosophila (from normally-reared or high vitamin A supplemented flies) in terms of decreasing photopigment quantity without decreasing membrane adaptation mediating channels. The data and model suggest that 1) photopigment and membrane processes are separate; 2) transduction and adaptational mechanisms are different; and 3) maximal adaptation establishes a steadystate wavelength-specific rhodopsin to metarhodopsin ratio. Sensitivity as a function of wavelength for maximal adapting stimuli was obtained from vitamin A deprivedDrosophila (Fig. 3). These data reflect relative rhodopsin levels. They were used to derive a measure related to spectral sensitivity ofin vivo metarhodopsin spectral absorption characteristics (Fig. 5). The presently reported metarhodopsin spectral function has certain advantages over previously reported electrophysiologically-based functions. It differs fromin vitro data by having an ultraviolet maximum and a shorter wavelength visible maximum. This finding is consistent with current theory on fly vision. The data obtained from vitamin A deprivedDrosophila are similar to data fromCalliphora andMusca; possible adaptational differences among different fly species may be explained by the model which explains differences betweenDrosophila in the vitamin A deprived vs. enriched conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01380050

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16

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Specific receptor input into spectral preference inDrosophila (1977)

Hu, Karin G. ; Stark, William S.

Springer

Journal of comparative physiology 121 (1977), S. 241-252

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Drosophila have 3 types of retinal receptors, R1–6, R7 and R8. Using visual mutant strains lacking function in one or two receptor types, spectral preference in walking fast (30 s) phototaxis was measured. High correlations for intensity-response functions were obtained (Fig. 2 and 5). With a 467 nm choice standard, which could saturate R1–6, white-eyed strains with only R8 or with R1–6 plus R8 functional exhibited similar spectral sensitivities with a broad peak at visible wavelengths (Fig. 3) not unlike the electrophysiological characterization of R8 (Fig. 1). Strains with R7 plus R8 or with all receptors intact exhibited similar functions with a high ultraviolet (UV) peak (Fig. 4), like the electrophysiological characterization of R7 plus R8. The presence of R1–6 did not alter the profiles mediated by R8 alone or by R7 plus R8. With a 572 nm standard, which should maintain R1–6 function, white- and red-eyed wild-type strains with all receptors intact exhibited similar UV dominated spectral sensitivities, probably from R7 plus R8, with weak visible secondary peaks possibly from R1–6 or R8 (Fig. 6). However, even with a very dim 572 nm standard or with no standard at all, unequivocal evidence for R1–6 input was not found and intensity-response function correlations were low. This finding and other recent studies suggest that specific phototactic or optomotor tasks and conditions (e.g., adaptation level) determine the extent to which each receptor input is utilized. Spectral preference with a bright 365 nm standard was difficult to measure because of the strong UV preference in phototaxis. In pilot studies, an ocelliless strain showed strong fast phototaxis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00609614

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17

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Spectral selectivity of visual response alterations mediated by interconversions of native and intermediate photopigments inDrosophila (1975)

Stark, William S.

Springer

Journal of comparative physiology 96 (1975), S. 343-356

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Recent studies have indicated that intense short wavelength stimulation in flies converts rhodopsin to a longlived metarhodopsin while decreasing visual sensitivity and electroretinographic (ERG) responsivity. Long wavelength stimulation reverses both visual pigment and ERG alterations. In this study of ERG's in white-eyedDrosophila, spectral sensitivities were obtained following intense visible and ultraviolet short wavelength stimuli. Both stimuli decreased sensitivity to all wavelengths while ultraviolet light also selectively decreased ultraviolet sensitivity (Fig. 1). These results isolated three sensitivity components contributing to the ERG in flies: (1) the dark adapted sensitivity (Fig. 1); (2) the residual sensitivity remaining subsequent to intense ultraviolet stimulation (Fig. 1); and (3) the ultraviolet sensitivity specifically abolished by intense ultraviolet stimulation (Fig. 2). Further evidence shows that the three components are probably receptor-specific; the first two resemble recent fly receptor spectral sensitivity data (e.g. Eckert, 1971) while the third represents a separate ultraviolet receptor. Linear reciprocity of time and intensity to alter the ERG responsivity was found over considerable ranges for long wavelength (Fig. 3) and short wavelength (Fig. 4) induced responsivity alterations. ERG action spectra were obtained for altering responsivity (Fig. 5). The action spectrum for decreasing responsivity was roughly parallel with the dark adapted spectral sensitivity for wavelengths below 500 nm. The action spectrum for reestablishing responsivity had a peak near 570 nm and agreed with previous determinations of spectral characteristics of fly metarhodopsin. The action spectra determined were probably based on photopigment interconversions in the 1–6 receptor system. Long wavelength reconversion of metarhodopsin to rhodopsin may explain the high ultraviolet and low red sensitivities and the functional significance of red eye color pigments in flies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00619224

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18

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Temperature-jump experiments on thin lipid membranes in the presence of valinomycin (1977)

Knoll, W. ; Stark, G.

Springer

The journal of membrane biology 37 (1977), S. 13-28

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Temperature jump relaxation experiments on planar lipid membranes in the presence of valinomycin were performed using the absorption of a strong light flash as an energy source for the generation of the T-jump. The relaxation of the current carried by valinomycin/Rb+ complexes was measured. The results were interpreted on the basis of a transport model which was also analyzed by voltage jump relaxation experiments. The study shows that the application of the T-jump technique provides valuable information about transport kinetics as well as the dynamics of the membrane structure. At the given experimental conditions the relaxation of the current is believed to reflect a temperature-dependent transition of the membrane to a new conformational state of lower order. The relaxation could be resolved with the present technique only at low temperatures and for membranes of high microviscosity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01940921

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19

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An extended kinetic analysis of valinomycin-induced Rb-transport through monoglyceride membranes (1975)

Knoll, W. ; Stark, G.

Springer

The journal of membrane biology 25 (1975), S. 249-270

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The time course of the current following a voltage jump, which is applied to monoglyceride bilayers in the presence of valinomycin, shows two relaxation times. This is basically in agreement with a simple carrier model which has been described in full detail formerly. Relaxation times and amplitudes allow a calculation of the rate constants of the transport model. The presented data supplement an analysis which was hitherto based only on the slower relaxation process and on information derived from the nonlinearity of currentvoltage characteristics. The additional resolution of the faster relaxation time allowed an approximate determination of the voltage dependence of the translocation rate constant for the carrier-ion-complex and provided evidence for a small voltage dependence of the interfacial reaction. The dependence of the relaxation parameters on the ion concentration in the aqueous phase was interpreted assuming a saturation of the ion concentration at the reaction plane at high bulk concentrations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868578

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20

Electronic Resource

Buchbesprechungen (1979)

Stark, A. A. ; Boschke, F. ; Tomby, G. N. ; [et al.]

Springer

Naturwissenschaften 66 (1979), S. 323-324

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ISSN: 1432-1904

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00441286

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