AN ACTION SPECTRUM IN THE BLUE and ULTRAVIOLET FOR PHOTOTROPISM IN ALFALFA*

Abstract Phototropism is a common property of plants, but it is not known if different species use the same photoreceptor for their response. We have determined fluence-response relations for phototropism in response to brief, broad-band blue irradiation for four plant species grown under red light (Amaranthus paniculatus, Linum usitatissimum, Vigna radiata and Medicago sativa) and compared these to ones previously obtained for Pisum sativum and Zea mays, grown under similar conditions. Curves for all species showed a bell-shaped dependence on fluence, a characteristic of first positive curvature as originally defined for the Avena coleoptile, and had a similar optimal fluence, near 3 H.mol m^?2. We have obtained an action spectrum in the blue and UV spectral regions for first positive phototropism of the hypocotyl of alfalfa grown under red light. Fluence-response curves at wavelengths between 300 and 500 nm were nearly identical in shape and magnitude; whereas below 300 nm, their slopes and maximum curvatures were reduced. The action spectrum showed that activity rose sharply at wavelengths below 500 nm, peaked at 450 nm with shoulders on either side of that peak, and had lesser peaks at 380 and, in the far ultraviolet, at 280 nm. This action spectrum was very similar to ones in the literature (obtained between 350 and 500 nm) for first and second positive phototropism of oat coleoptiles. We conclude that the same photoreceptor mediates phototropism in oat and alfalfa.     

ACTION SPECTRUM FOR GROWTH DELAY INDUCED BY NEAR-ULTRAVIOLET LIGHT IN E. coli B/r K*

Abstract— The action spectrum for growth delay induced by near-uv light was determined for Escherichia coli B/r growing in a defined medium. This spectrum agrees with and extends that determined earlier by Jagger and his co-workers for E. coli B growing in nutrient broth. The extended spectrum is indistinguishable from the absorption spectrum for 4-thiouridine above 320 nm, but deviates significantly at wavelengths shorter than this from the spectrum for 8–13 link formation in transfer RNA containing 4-thiouridine at position 8. These results extend the evidence that 4-thiouridine in transfer RNA is the chromophore for near-UV induction of growth delay, but weaken the case for linkage of a pyrimidine at position 13 in transfer RNA as the mechanism of growth delay.     

ACTION SPECTRUM FOR THE PHOTOINHIBITION OF BIOLUMINESCENCE IN THE MARINE DINOFLAGELLATE DISSODINIUM LUNULA

Abstract— The fractional photoinhibition of the mechanically stimulable bioluminescence in the vacuolar dinoflagellate Dissodinium lunula is proportional to the logarithm of the exposure. The action spectrum for this photoinhibition has been determined by measuring threshold exposures in absolute units of photons cm⁻². The threshold exposure at the wavelength of maximum sensitivity, 450 nm, was 2 ± 10⁻² photons cm⁻². The action spectrum is consistent with absorption by a blue light receptor pigment shielded by a nonphotoactive pigment which absorbs in the region of the bioluminescence emission spectrum. It is suggested that there may be some selective advantage for this absorbing pigment in the vacuolar dinoflagellates in order to prevent the organisms from being photoinhibited by their own bioluminescence.     

ULTRAVIOLET ACTION SPECTRUM FOR FLUOROGEN PRODUCTION IN THE OCULAR LENS

Abstract— …Previous work has demonstrated that fluorescent material (360nm excitation, 440nm emission), whose concentration normally increases with age in human lenses, can be generated artificially by exposing cultured human or animal lenses to UV radiation. In the present paper we report measurements of the rate of production of this fluorescent material in rat lenses in vitro as a function of UV irradiation wavelength. A plot of the observed rate of fluorogen production normalized to constant photon flux vs irradiation wavelength shows little action at 360 or 320nm, increases sharply at 300nm, remains relatively constant in the range 300–280nm, and then exhibits a further gradual rise from 270–250nm. The results on rat lenses are compared with results reported elsewhere for tryptophan in aqueous solution. The action spectrum for photochemical destruction of tryptophan in solution closely parallels that for fluorogen production in rat lenses. This result and other evidence suggest that photochemical destruction of tryptophan might be the initial event in UV-induced fluorogen production in the ocular lens.     

SUBSTRATE DEPENDENCE OF THE ACTION SPECTRUM FOR PHOTOENZYMATIC REPAIR OF DNA

Abstract— The absolute action spectrum has been determined for photoenzymatic splitting of cyclobutadipyrimidines ("pyrimidine dimers") from natural DNA, and from the synthetic polydeoxyribonucleotides poly(dA)·poly(dT) (forming only cyclobutadithymine) and poly(dG)·poly(dC) (forming only cyclobutadicytosine). These action spectra differ strikingly from each other, even when using the same enzyme preparations. On the other hand, the action spectrum for splitting cyclobutadithymine in natural DNA containing "dimers" of only this one type closely resembles the action spectrum for splitting the total mixture of "dimer" types in natural DNA, and is entirely different from the spectrum for splitting of the same photoproduct from poly(dA)·poly(dT). These results mean that the action spectrum is not simply the absorption spectrum of a chromophore carried by the photoreactivating enzyme, nor is it solely determined by the nature of the substrate photoproduct. It is at least partly determined by the over-all polynueleotide structure (viz. exact helical dimensions, pattern of neighboring bases to the "dimers," or both), affecting a ground state interaction between the enzyme and substrate in the enzyme-substrate complex.     

ACTION SPECTRUM FOR THE OXYGEN-INDEPENDENT INACTIVATION OF HAEMOPHILUS INFLUENZAE TRANSFORMING DNA WITH NEAR ULTRA-VIOLET LIGHT*

Abstract— The oxygen-independent inactivation of Haemophilis influenzae transforming DNA by near UV light (300–380 nm) has an action spectrum in which the efficiency of inactivation drops rapidly between 313 and 334 nm and more slowly between 334 and 405 nm, with a shoulder between 334 and 365 nm.     

ACTION SPECTRUM FOR THE PHOTOPERIODIC INDUCTION OF BULB FORMATION IN Allium cepa L.

Abstract— The action spectrum for the induction of bulb formation in Allium cepa L. was determined by continuous irradiation with monochromatic light for 3 h in the middle of the daily light period of the inductive photoperiod (18 h). The resultant action spectrum showed a single peak at 714 nm. Daily 3 h dark interruptions in the middle of inductive long photoperiods do not permit bulb formation. Bulb formation was inhibited also by monochromatic far red light (758 nm) applied at the beginning of the 3 h dark interruptions. The results of dichromatic irradiations indicate that phytochrome is the only photoreceptor involved in the photoperiodic regulation of bulbing in onion plants. The effect of far red light exhibits the characteristics (action spectrum and fluence rate dependency) of a classical "HIR" response.     

ACTION SPECTRUM FOR POLAROTROPISM IN THE CHLORONEMA OF THE FERN DRYOPTERIS FILIX-MAS (L.) SCHOTT

Abstract— A series of dose response curves was worked out under steady state conditions for mediation of the polarotropic response of the chloronema of the fern Dryopreris filix-mas (L .) Schott. The dose response curves show changes in slope with wavelength. In red and u.v. the slope values are higher than in blue. As a consequence the relative height of the peaks in red, blue, and u.v. and the fine characteristics in blue of the action spectra calculated on the basis of these dose response curves change decisively with different response levels taken for calculation. Therefore, a final decision cannot be made as to what photoreceptor(s) might be involved besides phytochrome. However, at low response levels the action spectrum looks similar to those action spectra described for a variety of other blue-u.v.-mediated photoresponses, which generally are believed as being indicative for a flavin. The findings clearly indicate that in cases such as Dryopteris and in cases, where action spectra were done only at one arbitrarily chosen dose, action spectroscopy may not allow the unequivocal identification of the photoreceptor(s) involved.     

ACTION SPECTRUM FOR PHOTOREVERSION OF THE ACTIVE Pfr-FRACTION OF Mougeotia in vivo

Abstract— The dichroic oriented fraction of the far-red light absorbing form of phytochrome (Pfr) in the green alga Mougeotia was characterized by action spectroscopy. Microbeam irradiations had to be used for the induction of chloroplast movement in Pfr-containing cells, because of the special dichroic absorption characteristics of the red light absorbing form of phytochrome (Pr) and Pfr in the alga. Fluence-response curves were elaborated especially in the far-red spectral region by reverting Pfr to Pr at the flanks of the cells and thus generating Pfr-gradients. Linearly polarized light vibrating perpendicularly to the cell axis was used, thus corresponding to the S,-transition moments of Pfr at the flanks of the cells. The action spectrum is characterized by a peak at approximately 715 nm and a very pronounced decrease towards 728 and 734 nm. The data indicate that the spectral absorption of the active Pfr-fraction in green Mougeotia is shifted towards shorter wavelengths as compared to extracted phytochrome from etiolated or even green higher plants. This "blue shift" seems to be typical for Pfr from green lower plants.     

ACTION SPECTRUM FOR PHOTOREACTIVATION OF ULTRAVIOLET-IRRADIATED MARSUPIAL CELLS IN TISSUE CULTURE

Abstract— An action spectrum has been determined for photoreactivation of the PtK-2 mammalian cell line of Potorous tridactylus . Maximum effectiveness occurs around 366 nm, but appreciable photo-reactivation occurs at wavelengths as long as 546 nm.     

ACTION SPECTRUM FOR SUBLIMINAL LIGHT CONTROL OF ADAPTATION IN Phycomyces PHOTOTROPISM

Abstract -Adaptation processes enable phototropism and other blue light responses of Phycomyces to operate over a 10-decade range of Ruencc rate. Phototropic latency, used routinely to monitor the kinetics of sensitivity recovery after a step down in fluence rate, can be shortened by application of dim light for 35 min during the early part of the latency period. This light is termed subliminal , because it does not elicit phototropism under these experimental conditions; rather, it exerts its influence on the underlying adaptation kinetics. Fluence rate-response data for this latency reduction, obtained at 17 wavelengths of subliminal light from 347 to 742 nm, showed a variety of shapes that could be fit by zero, one, or two sigmoidal components, plus a constant term. At most wavelengths, the fluence-rate threshold for latency reduction by subliminal light tended to be well below the absolute threshold for phototropism, indicating that this effect is highly sensitive. An action spectrum for the sensitivity of the subliminal light effect, derived from the fluence rate-response curves, shows major peaks around 400 and 500 nm and a broad band from 570 to 670 nm, followed by a steep absorption edge. The sensitivity in the near ultraviolet region is relatively very low. The magnitude of the latency reduction also depends strongly on wavelength with a maximum at about 450 nm. The Huence-rate response data and the action spectrum–which is markedly different from that for phototropism and other blue-light responses of Phycornyces – indicate the participation of multiple pigments, or pigment states, in the photocontrol of adaptation.     

THE ACTION SPECTRUM OF AN IN VITRO DNA PHOTOREACTIVATION SYSTEM

Abstract— The wavelength-dependence of in vitro photoreactivation of transforming DNA by yeast extract has been determined. There is an intensity-dependent lag at the beginning of the biological reaction. There is a similar lag in the splitting of thymine dimers by the yeast extract in the light, a process known to account for most or all of the increase in transforming activity of photoreactivated DNA. The most efficient wavelengths for photoreactivation are around 3550 and 3850 Å. Although the action spectrum is not very similar to flavin absorption, riboflavin at very low concentration inhibits photoreactivation, as it also inhibits a number of flavoenzymes, suggesting that the photoreactivating enzyme might be a flavoprotein.     

AN INSTRUMENT FOR ACTION SPECTRUM STUDIES IN DERMATOLOGY

Abstract— An instrument designed for convenient determination of action spectra for cutaneous photo-responses in man and experimental animals is described. Light from 450 W Xe lamp is dispersed by a concave holographic grating. The spectrum from 244 to 616 nm is projected as a planar strip (2 times 17 cm) intercepted by a grid with 31 ports. The bandwidth at each port is 12 nm and the size of the port increases from about 4 × 4 mm to 6 × 8 mm from the low to high wavelength limits, respectively. Typical fluence rates in quanta m^-2 s^-1 are 4.0 times 10¹⁹ at 298 nm, 16 times 10¹⁹ at 394nm and 22 times 10¹⁹ at 538 nm. Responses due to delayed erythema in normal skin and to musk ambrette photoallergy and solar urticaria in patients skin have been elicited with this instrument.     

AN ACTION SPECTRUM FOR ULTRAVIOLET-INDUCED SPORULATION IN THE FUNGUS STEMPHYLIUM SOLANI WEBER

Abstract— An action spectrum for conidial (spore) production in the fungus Stemphylium solani Weber is presented. The response is in the far-ultraviolet region (far u.v.). The spectrum shows a single peak at 280 nm, a shoulder at 260 nm, a trough at 250 nm, followed by a rise which is still rising at 230 nm, the shortest wavelength studied. The u.v. induced spore stimulation can be interrupted temporarily by irradiation in the visible region within 4 hr after induction.     

THE ACTION SPECTRUM IN DRUG INDUCED PHOTOSENSITIVITY

Abstract— A new method is proposed for expressing the data obtained from in vivo studies of drug-induced photosensitivity. It is shown that consideration of the underlying normal photobiological responses that occur in the absence of the photosensitising drug can yield much closer agreement between the in vitro absorption spectrum of the drug and the action spectrum obtained in photosensitised skin than is apparent from many published reports.     

ACTION SPECTRUM FOR PHOTOREACTIVATION OF ULTRAVIOLET-INDUCED MORPHOLOGICAL ABNORMALITY IN SEA URCHIN EGGS

Abstract An action spectrum was obtained for photoreactivation (PR) of morphological abnormality arising from ultraviolet (UV)-irradiation of sea urchin sperm. The wavelength dependence of PR was measured by the restoration of the formation of normal pluteus larvae after the exposure of fertilized eggs to various fluences of monochromatic PR light (313 to 500 nm). The PR action spectrum showed a maximum around 365 nm and a secondary peak somewhere above 400 nm. High PR activity beyond 400 nm wavelengths may reflect an advantageous or adaptational ability to cope with harmful effects of solar UV radiation.     

ACTION SPECTRUM FOR ANTHRACENE-INDUCED PHOTOSENSITIZATION OF HUMAN SKIN

Abstract— The action spectrum for photosensitization by topically applied anthracene was determined in human volunteers. Spectral reactivity was demonstrated in the range between 320 and 380 nm, with peak activity at around 360 nm. Three distinct inflammatory responses viz. immediate transient erythema, delayed erythema, and wealing were evoked following exposure to effective wavelengths. The action spectra for these responses were similar but the threshold doses were different. Prior treatment with a mast cell degranulating agent (codeine) abolished anthracene-UVA induced wealing but did not influence the erythema response. These findings suggest that photosensitized damage to cutaneous mast cells may be partially responsible for some of the observed inflammatory responses, but other sites of photochemical injury are also involved.     

PHOTOCHEMISTRY OF PHEOMELANIN: ACTION SPECTRUM FOR SUPEROXIDE PRODUCTION

Abstract— The action spectrum for superoxide production from aerated aqueous solutions of pheomela-nin was determined by utilizing the nitroblue tetrazolium-superoxide dismutase assay for superoxide. Superoxide production was greatest in the UVC regions, but continued well into the visible wavelengths. The marked increase in superoxide production noted in the UVC-UVB regions of the spectrum suggests that superoxide production may be involved in a number of actinic disorders in fair-skinned humans.     

ACTION SPECTRUM FOR ERYTHEMA IN HUMANS INVESTIGATED WITH DYE LASERS

Abstract— Erythema reactions of human skin were reevaluated with improved experimental methods: a tunable, highly monochromatic irradiation source as well as an instrumental measurement of skin reactions were used. The irradiation system consisted of an excimer laser pumped dye laser and a U V fiber optic system. The skin color after irradiation was determined with a colorimeter in the three-dimensional norm system of the Commission Internationale d'Eclairage (CIE). The wavelength dependence for delayed erythema was investigated in the UVB and UVA region from 294 nm to 374 nm in skin type II and III individuals. The maximum of the action spectrum in the UVB range was measured at 298.5 nm and an additional maximum was found at 362 nm in the UVA range. The action spectrum is compared with previous spectra from the literature and with the current standard erythema curve of the CIE as well as with other photobiological action spectra. Our results suggest a UVA/UVB boundary at 330 nm.