Antagonistic Components of the Late Receptor Potential in the Barnacle Photoreceptor Arising from Different Stages of the Pigment Process

The late receptor potential (LRP) recorded in barnacle photoreceptor cells exhibits, at high light levels, a strong dependence on the color of the stimulus and of the preceding adaptation. Most strikingly, red illumination of a cell previously adapted to blue light results in a depolarization which may last for up to 30 min after the light goes off, while blue illumination of a cell previously adapted to red light cuts short this extended depolarization or prevents its induction by a closely following red light. Comparison of the action spectra for the stimulus-coincident LRP and for the extended depolarization and its curtailment with those previously measured for the early receptor potential (ERP) confirms that these phenomena derive from the same bi-stable pigment as the ERP. The stimulus-coincident response and the extended depolarization appear to arise from substantial activation of the stable 532 nm state of the pigment, while activation of the stable 495 state depresses or prevents the extended depolarization and probably also depresses the stimulus-coincident response. Since either process can precede the other, with mutually antagonistic effects, one is not simply the reversal of the other; they must be based on separate mechanisms. Furthermore, comparison with ERP kinetics shows that both processes involve mechanisms additional to the pigment changes, as seen in the ERP. A model is proposed and discussed for the LRP phenomena and their dependences on wavelength, intensity, and duration of illumination based on excitor-inhibitor interactions.     

Early Receptor Potential Evidence for the Existence of Two Thermally Stable States in the Barnacle Visual Pigment

The early receptor potential (ERP) in the barnacle photoreceptor is shown by intracellular recording to exhibit a strong dependence on the color of the stimulus and of the preceding adaptation. The adaptation effects appear to be stable for at least 3 h in the dark. Most strikingly, the ERP is positive after red adaptation and mainly negative after blue adaptation. The simplest hypothesis which accounts for these observations is that two thermally stable pigment states with different absorption spectra contribute to the ERP. All ERP responses appear to be consistent with the sums of different ratios of the ERP's of the two pure states. The relative populations of the two states are shown to vary reciprocally, suggesting that the two are states of the same closed pigment cycle. Both states have approximately Dartnall nomogram-shaped absorption spectra, one peaked near 495 nm, and the other near 532 nm.     

Current-voltage relationships for the plasma membrane and its principal electrogenic pump inNeurospora crassa: I. Steady-state conditions

Summary The nonlinear membrane current-voltage relationship (I–V curve) for intact hyphae ofNeurospora crassa has been determined by means of a 3-electrode voltage-clamp technique, plus quasi-linear cable theory. Under normal conditions of growth and respiration, the membraneI–V curve is best described as a parabolic segement convex in the direction of depolarizing current. At the average resting potential of –174 mV, the membrane conductance is 190 mhos/cm²; conductance increases to 240 mhos/cm² at –300 mV, and decreases to 130 mhos/cm² at 0 mV. Irreversible membrane breakdown occurs at potentials beyond this range.Inhibition of the primary electrogenic pump inNeurospora by ATP withdrawal (with 1mm KCN) depolarizes the membrane to the range of –40 to –70 mV and reduces the slope of theI–V curve by a fixed scaling factor of approximately 0.8. For wild-typeNeurospora, compared under control conditions and during steady-state inhibition by cyanide, theI–V difference curve — presumed to define the current-voltage curve for the electrogenic pump — is a saturation function with maximal current of 20 A/cm², a half-saturation potential near –300 mV, and a projected reversal potential of ca. –400 mV. This value is close to the maximal free energy available to the pump from ATP hydrolysis, so that pump stoichiometry must be close to 1 H⁺ extruded:1 ATP split.The time-courses of change in membrane potential and resistance with cyanide are compatible with the steady-stateI–V curves, under the assumption that cyanide has no major effects other than ATP withdrawal. Other inhibitors, uncouplers, and lowered temperature all have more complicated effects.The detailed temporal analysis of voltage-clamp data showed three time-constants in the clamping currents: one of 10 msec, for charging the membrane capacitance (0.9 F/cm²) a second of 50–75 msec; and a third of 20–30 sec, perhaps representing changes of intracellular composition.     

Upper limit on translational diffusion of visual pigment in intact unfixed barnacle photoreceptors

Translational diffusion of pigment molecules in the disc membranes of amphibian rod outer segments is in the range of 10 /10 s. Recently, Goldsmith and Wehner set an upper limit of 10 /20 min to the diffusion in isolated formaldehyde-fixed rhabdoms of crayfish. We have now used the early receptor potential (ERP) to study the diffusion in intact, unfixed barnacle photoreceptors. The ERP from a cell fully adapted to blue light (most of the pigment in the rhodopsin state) was changed by 8–22% of its maximum change when the pigment in a 30 m spot was (almost) completely shifted to the metarhodopsin state by red laser adaptation. Further red illumination of the same spot 30 min later produced only a limited further change in the ERP (attributable to light scatter), showing that R had not migrated into the spot. It is concluded that the visual pigment diffuses by less than 30 /30 min.Based on material presented at the European Neurosciences Meeting, Florence, September 1978     

Microspectrophotometric evidence for two photointerconvertible states of visual pigment in the barnacle lateral eye

Microspectrophotometrically derived difference spectra from the barnacles Balanus amphitrite and B. eburneus show that a blue illumination after an orange illumination causes a decrease in absorption in the blue region and an increase in absorption in the green-yellow region, with an isosbestic point around 535 nm. Orange-following-blue illumination causes the reverse changes. The dark time between the adapting and measuring lights has no influence on the data. The results confirm previously reported ERP measurements which indicate that the barnacle visual pigment has two photointerconvertible dark-stable states. If one assumes a Dartnall nomogram shape for the two absorption spectra, a best fit to the observed difference spectra is obtained with nomograms peaking at 492 nm and 532 nm, with a peak absorbance ratio around 1.6:1. These two nomograms fit very well the ERP action spectra of metarhodopsin and rhodopsin, respectively, thus indicating that the ERP is a reliable measure of visual-pigment changes in the barnacle. The existence of a photostable blue pigment is demonstrated in B. eburneus and in some of B. amphitrite receptors, and the possible influence of this photostable pigment on the various action spectra measured in the barnacle is discussed.     

The pigment system of the photoreceptor 7 yellow in the fly,a complex photoreceptor

Summary The 7y photoreceptor in the fly (Musca, Calliphora) retina harbours an unusually complex pigment system consisting of a bistable visual pigment (xanthopsin, X and metaxanthopsin, M), a blue-absorbing C₄₀-carotenoid (zeaxanthin and/or lutein) and a uv sensitizing pigment (3-OH retinol).The difference spectrum and photoequilibrium spectrum in single 7y rhabdomeres were determined microspectrophotometrically (Fig. 2).The extinction spectrum of the C₄₀-carotenoid has a pronounced vibrational structure, with peaks at 430, 450 and 480 nm (Fig. 3). The off-axis spectral sensitivity, determined electrophysiologically with 1 nm resolution shows no trace of this fine structure thus excluding the possibility that the C₄₀-carotenoid is a second sensitizing pigment (Fig. 4).The absorption spectra of X and M are derived by fitting nomogram spectra (based on fly R1–6 xanthopsin) to the difference spectrum. max for X is 425 nm, and for M 510 nm (Fig. 5). It is shown that the photoequilibrium spectrum and the difference spectrum can be used to derive the relative photosensitivity spectra of X and M using the analytical method developed by Stavenga (1975). The result (Fig. 6) shows a pronounced uv sensitivity for both, X and M, indicating that the uv sensitizing pigment transfers energy to both X and M. A value of 0.7 for, the relative efficiency of photoconversion for X and M, is obtained by fitting the analytically derived relative photosensitivity spectra to the absorption spectra at wavelengths beyond 420 nm.     

Spatial properties of the prolonged depolarizing afterpotential in barnacle photoreceptors. I. The induction process

In invertebrate photoreceptors, when the light stimulus results in substantial net transfer of the visual pigment from the rhodopsin (R) to the metarhodopsin (M) state, the ordinary late receptor potential (LRP) is followed by a prolonged depolarizing afterpotential (PDA). The dependence of the amplitude of the PDA on the amount of pigment conversion is strongly supralinear, and the PDA duration also depends on this amount. These observations indicate an interaction among the elements of the PDA induction process and also make possible a test of the range of this interaction. The test consists of a comparison of the PDA after localized pigment conversion, obtained by strong spot illumination, to that after weaker diffuse illumination converting a comparable total amount of pigment. The experiment was performed on the barnacle lateral eye. The effective spot size was measured by the early receptor potential (ERP), in seawater saturated with CO2, which considerably reduced the electrical coupling between the photoreceptors. The ERP was also used to determine whether there is diffusion of R molecules into the illuminated spot. The spot illumination induced a PDA with small amplitude and long duration, while no detectable PDA was induced by the diffuse light. This indicates that the range of the PDA interaction is much smaller than the entire cell. In addition, the ERP results showed that there was no detectable diffusion of R molecules into the illuminated spot area over 30 min. This measurement, with a calculated correction for the microvillar geometry of the photoreceptor, enabled us to put an upper limit on the diffusion coefficient of the pigment molecules in the inact, unfixed barnacle photoreceptor of D less than 6 X 10(-9) cm2 s-1.     

Behaviour and the concept of “Heritability” axioms of an ethological refutation

This paper discusses the widespread use of heritability calculations in recent behaviour research including behaviour genetics. In the sequel, a radical criticism concerning the basic axioms of the underlying, more general concept itself is presented. The starting point for testing the proclaimed universal validity of this concept stems from a fictitious yet realistic example taken from learning research. The theoretical result, based on the application of the conventional reasoning in this field, states that developmental processes — and learning is only one specific case out of an immense number of similar behavioural mechanisms — can neither be adequately described nor causally explained with sufficient reliability within the context of the heredity paradigm. On the contrary, an inherent inconsistency of the concept itself when applied to behaviour processes is demonstrated. Finally, a conceptual alternative involving a systems-theoretical approach to the problem is presented: In such a perspective it is the concept of cognition which represents the adequate explanatory theorem - a theorem in which quantitative processing of information from the environment is clearly revealed to belong to a subordinate level of living organization.     

Microspectrophotometric characterization and localization of three visual pigments in the compound eye ofNotonecta glauca L. (Heteroptera)

Summary The absorption maxima ( _max) of the visual pigments in the ommatidia ofNotonecta glauca were found by measuring the difference spectra of single rhabdomeres after alternating illumination with two different adaptation wavelengths. All the peripheral rhabdomeres contain a pigment with an extinction maximum at 560 nm. This pigment is sensitive to red light up to wavelengths > 700 nm. In a given ommatidium in the dorsal region of the eye, the two central rhabdomeres both contain one of two pigments, either a pigment with an absorption maximum in the UV, at 345 nm, or — in neighboring rhabdoms — a pigment with an absorption maximum at 445 nm. In the ventral part of the eye only the pigment absorbing maximally in the UV was found in the central rhabdomeres. The spectral absorption properties of various types of screening-pigment granules were measured.     

The pigment ofXanthomonas populi is a nonbrominated aryl-heptaene belonging to xanthomonadin pigment group 11

Based on mass spectrometry and electronic absorption spectroscopy, the main pigment fromXanthomonas populi (synonym:Aplanobacter populi) was identified as a nonbrominated aryl-heptaene. TheX. populi pigment was indistinguishable—on the basis of cochromatography and electronic absorption spectroscopy—from an authentic sample of a xanthomonadin belonging to Pigment Group 11, previously found as minor components in strains belonging to theXanthomonas campestris taxospecies (specifically in theXanthomonas pruni andXanthomonas vesicatoria nomenspecies). Possession of a xanthomonadin pigment confirms the placement ofX. populi in the genusXanthomonas and this particular pigment serves to distinguishX. populi from the five other taxospecies presently assigned to that genus. TheXanthomonas sp. isolated fromSalix, which purportedly shows affinities toX. populi, forms a monobrominated aryl-polyene pigment and —on that basis—is unlikeX. populi.     

Isolation and characterization of lactose non-utilizing mutants in Aspergillus nidulans

Summary A number ofAspergillus nidulans mutants unable to grow on lactose or growing very poorly on this sugar have been isolated. They may be divided into two major groups: to the first belong mutants in which -galactosidase can be induced by galactose but not by lactose. Mutants of the second group are induced neither by lactose nor by galactose. Mutants of the first group showed an impaired lactose-permease system, while those of the second group most likely concern -galactosidase structural or regulatory genes as they show a normal rate of lactose uptake. Genetic analysis revealed that mutants from the first group fall into three different loci and those from the second into four loci. No mutant has been found so far with the lactose-permease system and -galactosidase simultaneously impaired, or with a constitutive level of either activity.The wild-type strain ofAspergillus nidulans grows on lactose as the sole carbon source. The two enzymes necessary for the utilization of lactose, that is lactose permease (which is likely to be a complex system) and -galactosidase show an inductive response to lactose and galactose (Paszewskiet al., 1970). Mycelia grown on glucose show a low level of permease activity which rises 7–10-fold upon induction by lactose, and no activity of -galactosidase. Induction of both enzymes is not time-coordinated — the induction of permease preceeds the induction of -galactosidase. In contrast toNeurospora crassa (Bates and Woodward, 1964; Bateset al., 1967; Lester and Byers, 1965) only one type of -galactosidase with pH optimum 7.5–7.6 was found inAspergillus nidulans.A number of mutants unable to grow on lactose or growing very poorly on this sugar have been isolated. Their genetic and enzymatic characterization is given in this paper.     

Die Brandgans(Tadorna tadorna) im Mausergebiet Gro?er Knechtsand

Summary These results are based upon studies carried out in summer and early autumn 1964–67 on the major European moulting area for Shelducks(Tadorna tadorna): the Grosser Knechtsand, Elbe—Weser estuary, northwest Germany.The sand- and mud-flats of the Grosser Knechtsand serve as a rest and moulting place almost exclusively for non resident Shelduck populations. There is no local breeding population.The greatest number of Shelducks was present from 20 July to 20 August. The size of the resting flocks (see figure 1) increases rapidly from the beginning of July and then decreases just as quickly untill the end of September. The highest daily estimates were made on August 14th, 1964 (about 60,000 birds), on August 9th, 1965 (about 40,000 birds), on August 5th, 1966 (about 38,000 birds), and on August 11th, 1967 (about 75,000 birds). The local ringing recoveries, the seasonal data, no drift fluctuations of flightless birds between Knechtsand and the moulting areas north of the Elbe estuary, and individual observations suggest an average stay of each bird of 12–14 days. The entire moulting population may thus be calculated as 85,000–100,000 Shelducks in 1964 and in 1965 and 1966, 70,000 to 80,000. The Shelduck is more numerous than any other species of waterbirds, comprising 33–48.5 % of all birds from August 1st to August 20th.The seasonal fluctuation diagram does not correspond to sinusoidal oscillation, but is irregular. Maxima occur with more or less high air pressure, minima with more or less low air pressure. Since the extreme values and a constant interval between single extreme values recurred in 1965 and 1966, too, varying observation opportunities cannot explain the differences by themselves. There are probably different arrivals and departures of groups within the mass, but whether of different geographic populations or not, is not yet known. There is no correlation apparent between any single weather conditions and the numerial abundance of Shelduck aggregations at the peak of the moult. Toward the end of the moulting period, low air pressure conditions with stormy winds and cold air intrusions will accelerate the departure. There is one remarkable correlation, perhaps of similar importance for the moult congregations ofSomateria molissima andMelanitta nigra (seeSalomonsen 1968) andMergus serrator in the Danish-German coastal zone: the Shelduck concentrations on Knechtsand take place during the same time, especially in the first and second stage, when the sea water climbs up to the highest yearly temperatures (16–18° Celsius).Shelducks that are able to fly arrive during the high tide especially, from southerly and southwesterly directions. They leave in the same direction after resting about 3 hours, which corresponds to the tidal fluctuation. Of about 37,834 counted Shelducks, 25,932 (= 68.5 %) arrived on Knechtsand from south-southwest, 8468 (= 22.4 %) from southwestwest, 1581 (= 4.2 %) from east-southeast, 1340 (= 3.5 %) from west-northwest, and 513 (= 1.4 %) from north-northeast (as observed in 1964 and 1965). The area covered by the ducks has a radius from 20 to 30 (and more?) kilometers around the Knechtsand. The flightless Shelducks are more or less passively moved by the tidal streams 3–8, sometimes 10 kilometers from rest places along sand banks exposed to deeper water. Favored resting places lie leeward of the Knechtsand island.The majority of the flightless ducks move between the west-northwest sector of the Grosser Knechtsand and the borders of the nature refuge area, thus leaving once or twice daily.On the west-northwest side of Knechtsand, few flights take place. This observation is supported by ringing recoveries. The low Scandinavian breeding densities also assure that the greater proportion of Shelducks will breed in Western Europe.Male Shelducks are 2 to 3 times as common as females. The relation males-females was 15–10 : 1 (July 1 – July 20), 3–4 : 1 (July 20 – August 30), 1 : 1 (September).The behavior of Shelducks able to fly is characterized during low tide by feeding and by plumage care and sleeping during high tide. Flightless birds show short, varying activities, most intensively plumage care, whereas feeding is sharply reduced. While there are already some instances of individual interactions (bonds) (—, —, —) among the ducks able to fly, most birds appear not to recognize one another individually. When replacing the remiges, the ducks are extremely shy on land (flight distance to men more than 1000 m). In deeper water, which is always situated beside the resting places on land, the flight distance decreases remarkably.There are no human or animal predators of Shelducks on Knechtsand. There were probably no natural predators present in former times on the seaward flats to cause that behavior which is characterized as extremely shy. It is possible that this shyness is related to the crowding. Isolated birds require a longer time to complete the moult, so the biological value of crowding may be a reduction of the hazardous moulting time.Comparing the Knechtsand results with the studies of German, Danish, Dutch, British authors, these conclusions might be derived: The maximum concentrations of Shelducks on Knechtsand are correlated with minimum numbers in the surrounding coastal areas. A period of relatively short arrival flights is, after the moult, followed by a slow dispersion through autumn in the Danish, German, Belgian-Dutch Wattenmeer. The Grosser Knechtsand is to be regarded as the main rest area, the flats at the northern side of the Elbe estuary are secondary moulting and important intermediate rest areas. All moulting areas lie within rather shallow waters relatively safed against storms and high, strong tidal movements at both (northern and southern) flanks of the Elbe estuary. Years of low breeding success in Great Britain (1964, 65) are followed, after one year, by a decline, years of high breeding success (1966, 67) by an increase in the moulting population on Knechtsand (1965,66, resp. 67, 68). The Shelduck indices in the counts of the British Wildfowl Trust, low in 1949–54, but rather high in 1960–68, make it probably that the former daily records of more than 75,000 Shelducks were overestimated. In the absence of daily counts by observers trained in estimation techniques, counts of birds in large aggregations cannot be more precise.

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Gefördert mit Mitteln des Landes Niedersachsen und unterstützt vom Institut für Vogelforschung Vogelwarte Helgoland und der Schutz- und Forschungsgemeinschaft Knechtsand e. V. sowie zahlreichen privaten Mitarbeitern (Danksagung in einer ausführlichen, für die Beihefte Landschaft und Stadt 1969 vorgesehenen Abhandlung).     

Absorption of light by metarhodopsin modifies the effect of a conditioning light on the barnacle photoreceptor

We show that the effect of an adapting light on the sensitivity of barnacle photoreceptors depends on the direction of net pigment transfer [rhodopsin (R) to metarhodopsin (M) or reverse] occasioned by the adapting light. For stimuli giving no net pigment transfer the state of the pigment appears irrelevant, R R having the same effect as M M. With respect to these, R M gives enhanced facilitation and M R depressed facilitation. This suggests a correlation with the prolonged depolarising after-potential (PDA) and the anti-PDA, which follow R M and M R stimuli respectively. These effects appear mainly in less sensitive cells and for higher amounts of conditioning light — but still well within the physiological range and well below the threshold for PDA and anti-PDA induction. The special interest of these results is that they appear to be interpretable only by assuming that absorption of light by metarhodopsin exerts an effect on the stimulus coincident response (LRP), the first demonstration of such an effect.Based on material presented at the European Neurosciences Meeting, Florence, September 1978     

Specificity of recA441-mediated (tif-1) mutational events.

Summary To investigate the impact of SOS induction on the distribution of spontaneous mutation, 111 recA441-mediated mutations were characterized at the DNA sequence level in the lacI gene of Escherichia coli. A 2.6-fold enhancement in lacI ^– mutation frequency was observed after induction of the SOS system in the absence of mutagenic treatment, and specific classes of mutational events were induced. G : C C : G, G : C T : A and A : T T : A transversion events were specifically enhanced after SOS induction. A preferential 5-Y-Purine-3 neighbouring base specificity for these transversion events is reported here (normalised for mutation of the purine residue). In addition, a preference for transversion events at 5-C/GTGG-3 sequences is also observed. Fifty events were recovered at the lacI frameshift hotspot site and were equally represented by 4 bp addition and deletion events. This 1:1 ratio deviates significantly from the 4:1 distribution characteristic of spontaneous frameshift mutation in the RecA⁺ background and is a consequence of the fourfold induction of the (–)4 event. This abberrant distribution was confirmed by oligomeric probing of 474 independent recA441-mediated spontaneous lacI ^– mutations.     

The endogenous development of two new species of Isospora (Apicomplexa: Eimeriidae) from skinks

Two new species of Isospora are described from skinks, I. cryptoblephari n. sp. in Cryptoblepharus virgatus and I. delmae n. sp. in Delma nasuta, both collected in Australia. I. cryptoblephari oöcysts are ellipsoidal to subspherical, 17.5–22.5 × 25.0–30.0 m with two ovoid sporocysts, 9.0–10.0 × 12.5–14.0 m. I. delmae oöcysts are spherical to subspherical, 16.5–19.0 × 16.5–20.0 m with two ovoid sporocysts, 5.0–6.5 × 9.0–12.5 m. These species of Isospora had two sporocysts, each containing four sporozoites and a characteristic Stieda body. A study of endogenous stages in the host's intestine revealed that I. cryptoblephari develops in the nucleus and I. delmae in the cytoplasm of the host's gut epithelial cell. In the former, both merogony and gamogony occurred in the nucleus.     

Genetic variation in irradiated and control populations of Cnemidophorus tigris (sauria,teiidae) from Mercury,Nevada with a discussion of genetic variability in lizards

Summary Whiptail lizards (Cnemidophoms tigris) were collected from fenced irradiated, fenced control, and unfenced areas near Mercury Nevada. No changes in allele frequencies at 26 allozyme loci could be ascribed to irradiation or fencing. This species is the most polymorphic and heterozygous lizard so far examined. — Heterozygosity estimates derived from electrophoretic studies on 20 additional species of lizards are compared with Cnemidophorus. A general trend seems to emerge. Fossorial lizards have uniformly low levels of heterozygosity (ca. 1 %). Territorial sit and wait predators are intermediate (ca. 5%). Highly vagile apparently nonterritorial lizards are the most heterozygous (ca. 10%). Assuming that this trend does not reflect some of sampling error, two current, non-mutually exclusive hypotheses explain the observed situation: (1) the niche width variation hypothesis predicts, higher variability in populations where individuals are exposed to largescale environmental heterogeneity; and (2) the population size hypothesis predicts that, all other things being equal, vagility would tend to increase the effective population size by reducing inbreeding, which would promote higher levels of genetic variation.     

A comparative study of variation in codon 33 of the<Emphasis Type="Italic"> rpoS</Emphasis> gene in<Emphasis Type="Italic"> Escherichia coli</Emphasis> K12 stocks: implications for the synthesis of σ<Superscript>s</Superscript>

The Escherichia coli rpoS gene encodes an RNA polymerase sigma factor (sigma S or ^S) required for the expression of stationary-phase genes. In the first published rpoS sequence from E. coli K-12 codon 33 is given as CAG. However, several subsequent independent studies found the amber codon TAG at this position ( rpoSAm). Besides this amber codon, other codons such as TAT have also been found at this location in rpoS. Comparative genome analysis now leads us to propose TAG as the parental codon 33 in rpoS in E. coli K-12. Five different stocks of the strain W3110, which differ in the levels of ^S protein they express, were investigated. We sequenced the rpoS gene from these, and found a T at nucleotide position 97 in four out of the five stocks and a G at position 99 in three out of the five. W1485, a parental strain of W3110, and W3350, a derivative of W3110, are also rpoSAm mutants. Such rpoSAm mutants would be expected to show no RpoS activity. The retention of partial or intermediate ^S activity by suppressor-free rpoSAm mutants is therefore puzzling. We propose that a functional, N-terminally truncated, ^S (1–53^S) can be translated from a Secondary Translation Initiation Region (STIR) located downstream of the amber codon 33. It has recently been reported that a fragment of RpoS (1–53^S) that lacks the first 53 amino acids is functional when synthesized in vivo. Taken together, our results support the hypothesis that the original codon 33 of the rpoS gene in E. coli K-12 strains is the amber codon TAG.Communicated by W. Goebel     

The underwater light field in the Bellingshausen and Amundsen Seas (Antarctica)

The underwater light field in the Bellingshausen andAdmundsen Seas was characterised using data collectedduring the R/V Polarstern cruise ANT XI/3, from12.1.94 to 27.3.94. The euphotic zone varied from 24to 100 m depth. Spectral diffuse vertical attenuationcoefficients (K _d ())were determined for 12narrow wavebands as well as for photosyntheticallyavailable radiation (PAR, 400–700 nm): K _d (490)ranged from 0.03 to 0.26 m¹; K _d (550) from0.04 to 0.17 m¹; K _d (683) from 0.04 to0.17 m¹; and K _d (PAR) varied from 0.02 to0.25 m¹. K _d () for wavelengths centred at412 nm, 443 nm, 465 nm, 490 nm, 510 nm, 520 nm and550 nm were significantly correlated with chlorophyllconcentration (ranging from 0.1 to 6 mg m³). Thevertical attenuation coefficients for 340 nm and380 nm ranged from 0.10 to 0.69 m¹ and from 0.05to 0.34 m¹, respectively, and were also highlycorrelated with chlorophyll concentrations. These K _d values indicate that the 1% penetration depthmay reach maxima of 46 m and 92 m for 340 nm and380 nm, respectively. The spectral radiancereflectances (Rr()) for 443 nm, 510 nm and 550 nmwere less than 0.01 sr¹. Rr() for 665 nm and683 nm increased with depth up to 0.2 sr¹ because ofchlorophyll fluorescence. Using a model that predicts downwardirradiances by taking into account the attenuation bywater and absorption by chlorophyll, we show thatchlorophyll fluorescence has a significant influenceon the red downward irradiance (E _d (633, 665, 683))in deeper layers. The ability of the phytoplanktonpopulation to influence the light environment byautofluorescence and absorption processes depends onthe light conditions and on the photoacclimation ofthe cells, represented by the in vivo crosssection absorption coefficient of chlorophyll (a*). Theobtained mean chlorophyll-specific light attenuationcoefficients of phytoplankton in situ (k _d ) are higherthan the in vivo absorption coefficient of chlorophyll,more than to be excepted from the scattering. a*(), m² mg chl¹, decreased due topackaging effect with increasing chlorophyllconcentrations.     

Temporal resolution of colour vision in the honeybee

Summary Extracellular recordings have been made from ganglion cells of the lemon shark retina: ON, OFF and ON-OFF units were recorded. Spectral sensitivity measurements under darkadapted conditions reveal a _max of 519–522 nm. This may be due to two photoreceptor systems. A second class of ganglion cells was characterized as receiving input from a single 544 nm visual pigment system.     

Bacterial rhodopsins monitored with fluorescent dyes in vesicles andin Vivo

Summary Three retinal-containing pigments have been detected inHalobacterium halobium membranes: bacteriorhodopsin (bR), halorhodopsin (hR), and slow-cycling rhodopsin (sR). The first two hyperpolarize the cell membrane by electrogenic transport of H⁺ and Cl^–, respectively. The third pigment, sR, may be a photosensory receptor since mutants lacking bR and hR retain their retinal-dependent phototaxis responses. We monitored light-induced changes in fluorescence of several voltage-sensitive dyes in cells and membrane vesicles. Red light-induced potential changes generated by bR and hR were similar to signals described previously. Signals generated by hR could be identified using four criteria: wavelength dependence, Cl^– dependence, shunting by valinomycin and K⁺, and the absence of these signals in hR-deficient mutants. The absence (detection limit 0.5 mV) of hyperpolarization signals in bR^–hR^–sR⁺ vesicles and cells shows that sR photochemical reactions are nonelectrogenic. Two signals independent of bR and hR were measured: blue light caused a decrease and red light an increase in dye fluorescence. Both signals appear to derive from sR on the basis of their retinal-dependence and action spectra. In a retinal-deficient mutant strain (Flx3R), both sR signals appeared after addition of all-trans retinal. In this strain retinal also restores phototaxis sensitivity within the same time scale. The retinal concentration dependence for all four parameters monitored—the attractant (red) and repellent (blue) phototaxis, and the red light and blue light-induced fluorescence signals—is the same. This correlation is consistent with the hypothesis that both attractant and repellent responses are mediated by sR, as suggested by Bogomolni and Spudich (Proc. Natl. Acad. Sci. USA.79:6250–6254 (1982)).