Pre-clinical studies of the negative pi-meson beam at TRIUMF

Summary The ^– flux from the biomedical channel at TRIUMF increases with increasing channel momentum, while the contaminating electron flux decreases. Since the electrons appear to result from conversion of the high energy-rays produced by ⁰ decay in the production target, the electron contamination can be reduced further by target configurations which minimize gamma conversion.The attenuation of ^– beams by in-flight interactions was found to decrease from an initial value of 1.67 ± 0.02 % per g/cm² at zero depth to 1.48 ± 0.02 % per g/cm² near the stopping peak.The inactivation of cultured CHO cells by an extended-peak ^– dose distribution has been measured using the gel technique. The survival data have been fitted by a model which characterizes the physical quality of the dose profile by means of measured star densities. This model provides a convenient method of analysis for large sets of survival data and may be useful for prediction of the biological effect of new ^– dose distributions.The RBE value for 50% survival measured at the centre of a 7 cm extended peak was found to be approximately 1.4, in reasonable agreement with recent values obtained at LAMPF and SIN.     

Photochemical transformations and bacterial utilization of high-molecular-weight dissolved organic carbon in a southern Louisiana tidal stream (Bayou Trepagnier)

UVirradiation of dissolved organic carbon (DOC) in the laboratory can producesmall, labile organic compounds utilizable by microbes, but few studies haveattempted to document this process in situ. ¹³Cnuclear magnetic resonance (NMR) was used to examine the bulk chemicalcomposition of natural and laboratory-irradiated high-molecular-weight DOC(HMW-DOC) from shaded (150 mol m^–2s^–1 average light in surface water) and open (1500mol m^–2 s^–1) field sitesoverone and a half years. ¹³C NMR revealed only small differences incarbon functional groups between laboratory irradiated and non-irradiatedHMW-DOC. However, bacterial protein productivity per cell (BPP) was enhanced innaturally irradiated samples of HMW-DOC in a field mesocosm experiment (p <0.05), suggesting that bacterial growth was enhanced by photochemicalproductionof labile DOC substrates. Absorbance characteristics such as spectral slope,absorbance at 350 nm, and the absorbance ratio 250nm/365 nm revealed that HMW-DOC was photoreactive,yetno differences in these values were found between samples irradiated with andwithout UV-B. In experiments conducted with simulated solar radiation in thelaboratory and with natural light in the field mesocosm experiment, UV-A(320–400 nm) and photosynthetically active radiation (PAR;400–700 nm) were more effective than UV-B (280–320nm) in HMW-DOC photolysis.     

Effects of UV-B radiation on photosynthesis and growth of terrestrial plants

The photosynthetic apparatus of some plant species appears to be well-protected from direct damage from UV-B radiation. Leaf optical properties of these species apparently minimizes exposure of sensitive targets to UV-B radiation. However, damage by UV-B radiation to Photosystem II and Rubisco has also been reported. Secondary effects of this damage may include reductions in photosynthetic capacity, RuBP regeneration and quantum yield. Furthermore, UV-B radiation may decrease the penetration of PAR, reduce photosynthetic and accessory pigments, impair stomatal function and alter canopy morphology, and thus indirectly retard photosynthetic carbon assimilation. Subsequently, UV-B radiation may limit productivity in many plant species. In addition to variability in sensitivity to UV-B radiation, the effects of UV-B radiation are further confounded by other environmental factors such as CO₂, temperature, light and water or nutrient availability. Therefore, we need a better understanding of the mechanisms of tolerance to UV-B radiation and of the interaction between UV-B and other environmental factors in order to adequately assess the probable consequences of a change in solar radiation.Abbreviations A_max light and CO₂ saturated rate of oxygen evolution - Ci internal CO₂ concentration - F_v/F_m ratio of variable to total fluorescence yield - PAR photosynthetically active radiation (400–700 nm) - PS II Photosystem II - _app apparent quantum yield of photosynthesis - SLW specific leaf weight - UV-B ultraviolet-B radiation between 290–320 nm     

Seasonal attenuation of quantum irradiance (400–700 NM) in three Nebraska reserviors

The attenuation of down-welling quantum irradiance (400–700 nm) was monitored seasonally in three eutrophic Nebraska reservoirs from July, 1975, to June, 1976. Measurements were made at four stations in McConaughy, three in Pawnee, and three in Yankee Hill using a commercially available, quantum irradiance sensor. The mean vertical attenuation coefficient () for McConaughy varied within a range of thirty-four-fold (0.16 5.45 m^-1), and this range is apparently the greatest reported and this range is apparently the greatest reported for a freshwater system in which data were collected with a quantum sensor. Annual average values for McConaughy, Yankee Hill, and Pawnee were 0.69 m^–1, 1.08 m^–1, and 1.25 m^–1, respectively. The euphotic zone and the 1% level of subsurface irradiance is discussed with respect to the penetration of photosynthetically active radiation (PAR) into natural waters.This study was supported by a grant from the Office of Water Research and Technology, U.S. Dept. of the Interior, project number A-043-NEB, agreement number 14-34-0001-6028, to James R. Rosowski, School of Life Sciences, University of Nebraska, Lincoln.     

Effects of solar radiation,humic substances and nutrients on phytoplankton biomass and distribution in Lake Solumsjö, Sweden

Impacts of solar radiation, humic substances and nutrients on phytoplankton abundance at different depths were investigated in a temperate dimictic lake, Lake Solumsjö. Penetration of solar radiation profiles at different depths, represented as light attenuation coefficient (K _d) were examined. Water sampling and downward irradiance of photosynthetically active radiation (PAR), ultraviolet-A (UV-A, 320–400 nm) and ultraviolet-B (UV-B, 280–320 nm) radiation were performed once a week and at three different times of the day (08.00, 12.00 and 16.00 hrs, local time) between September 13 and November 1, 1999. During the period of investigation, solar radiation above the water surface declined from 474 to 94 mol m^–2 s^–1 for PAR, from 1380 to 3.57 W m^–2 for UV-A and from 13.1 to 0.026 W m^–2 for UV-B, respectively. The attenuation coefficient (K _d) for UV-B radiation ranged from 3.7 to 31 m^–1 and UV-B radiation could not be detected at depths greater than 0.25 m. Humic substances measured at 440 nm ranged from 35.5 to 57.7 Pt mg l^–1. Mean values of biomass, estimated from chlorophyll a, in the whole water column (0–10 m) varied between 2.3 and 5.6 g l^–1 and a diel fluctuation was observed. During stratified conditions, high levels of iron (1.36 mg l^–1) and manganese (4.32 mg l^–1) were recorded in the hypolimnion, suggesting that the thermocline played a major role in the vertical distribution of phytoplankton communities in Lake Solumsjö. The high levels of iron and manganese stimulated the growth of Trachelomonas volvocinopsis in the hypolimnion at a depth of 10 m. Negative impacts of UV-B radiation on phytoplankton in lake Solumsjö are reduced due to the high levels of humic substances and the high degree of solar zenith angle at the latitude studied.     

Sensitivity to far-red radiation in stomata of Phaseolus vulgaris L.: Rhythmic effects on conductance and photosynthesis

The influence of far-red (FR; 700–800 nm) radiation on steady-state stomatal conductance and net photosynthesis in P. vulgaris has been studied. Whereas FR radiation alone was relatively ineffective, addition of FR to a background of white light (WL; predominantly 400–700 nm) resulted in increased stomatal conductance. Stomata exhibited a marked diurnal sensitivity to FR. The action maximum for enhancing stomatal conductance was near 714 nm. A combination of FR and infra-red (IR; >800 nm) enhanced net photosynthesis when added to a background of WL. When IR alone was added to WL, there was a net decrease in photosynthesis, indicating that it is the FR waveband which is responsible for the observed photosynthetic effects. Naturally occurring levels of FR radiation (235 mol·m^-2·s^-1) in vegetation-canopy shade enhanced net photosynthetic CO₂ gain by 28% when added to a background of 55 mol·m^-2·s^-1 WL.Abbreviations BL blue - FR far-red - IR infra-red - PAR photosynthetically active radiation - R red - WL white light     

Fluorescence of 3-keto-steroids in aqueous solution

The physiologically important 3-keto-steroids are non-fluorescent or only weakly fluorescent in protic as well as in aprotic solvents. In contrast, the 4,6,8(14)-triene-3-one steroids are highly fluorescent in aqueous solution but they do not appreciably fluoresce in other solvents. Evidence is presented that the introduction of double bonds into the skeleton of the 3-keto-steroids leads to a decrease of the energy of the lowest – ^* state, bringing this level into the neighbourhood of the non-fluorescent n – ^* state. As a consequence, for two states of approximately the same energy, relatively small perturbations such as those due to solvent interactions, protein binding and micelle formation, will then determine whether a system will fluoresce ( – ^* state lowest) or not (n – ^* state lowest). When the fluorescent 3-keto-steroids, having three conjugated double bonds, bind to proteins, the fluorescence intensity becomes almost zero, making these compounds useful as probes for steroid-protein interactions. This quenching of the fluorescence is explained by a decrease in energy of the n – ^* state relative to the – ^* state of the steroids due to hydrophobic interactions with the proteins.Abbreviations 6,8-BDT 6,8-bisdehydrotestosterone; DMSO, dimethylsulfoxide - HPLC high pressure liquid chromatography This work was presented in part at the Annual Meeting of the Gesellschaft für Biologische Chemie, September 26–29, 1983, in Göttingen. For an abstract see: Hoppe-Seyler's Z. Physiol. Chem. (1983) 364: 1151–1152Dedicated to Prof. Dr. F.-W. Zilliken on the occasion of his 65th birthday     

Identification of a glutathione-S-transferase effector domain for inhibition of jun kinase, by molecular dynamics

We have recently found that the glutathione-S-transferase -isozyme (GST-), a cellular detoxification enzyme, potently and selectively inhibits activation of jun protein by its upstream kinase, jun kinase (JNK). This newly identified regulatory activity of GST- is strongly inhibited by a group of agents that inhibit its enzymatic activity. Since loss of enzymatic activity in general does not correlate with loss of regulatory activity, it is likely that inhibitor binding induces changes in the structure of one or more domains of GST that block its interaction with JNK. To identify regions of GST that change conformation on the binding of inhibitors, we have performed molecular dynamics calculations on GST- to compute its average structure in the presence and absence of the inhibitor, glutathione sulfonate. Superposition of the two average structures reveals that several regions change local structure depending upon whether the inhibitor is bound or not bound. Two of these regions, residues 36–50 and 194–201, are highly exposed. We have synthesized peptides corresponding to these two segments and find that the 194–201 sequence strongly inhibits the ability of GST- to block the in vitro phosphorylation of jun by JNK. These results suggest that this region of GST- is critical to its functioning as a newly discovered regulator of signal transduction.     

Scaling CO2-photosynthesis relationships from the leaf to the canopy

Responses of individual leaves to short-term changes in CO₂ partial pressure have been relatively well studied. Whole-plant and plant community responses to elevated CO₂ are less well understood and scaling up from leaves to canopies will be complicated if feedbacks at the small scale differ from feedbacks at the large scale. Mathematical models of leaf, canopy, and ecosystem processes are important tools in the study of effects on plants and ecosystems of global environmental change, and in particular increasing atmospheric CO₂, and might be used to scale from leaves to canopies. Models are also important in assessing effects of the biosphere on the atmosphere. Presently, multilayer and big leaf models of canopy photosynthesis and energy exchange exist. Big leaf models — which are advocated here as being applicable to the evaluation of impacts of global change on the biosphere — simplify much of the underlying leaf-level physics, physiology, and biochemistry, yet can retain the important features of plant-environment interactions with respect to leaf CO₂ exchange processes and are able to make useful, quantitative predictions of canopy and community responses to environmental change. The basis of some big leaf models of photosynthesis, including a new model described herein, is that photosynthetic capacity and activity are scaled vertically within a canopy (by plants themselves) to match approximately the vertical profile of PPFD. The new big leaf model combines physically based models of leaf and canopy level transport processes with a biochemically based model of CO₂ assimilation. Predictions made by the model are consistent with canopy CO₂ exchange measurements, although a need exists for further testing of this and other canopy physiology models with independent measurements of canopy mass and energy exchange at the time scale of 1 h or less.Abbreviations LAI leaf area index - NIR near infrared (700–3000 nm) radiation - PAR photosynthetically active (400–700 nm) radiation - PI photosynthetic irradiance (400–700 nm) - PPFD photosynthetic photon flux area density (400–700 nm) - PS I Photosystem I - PS II Photosystem II - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - RuP₂ ribulose-1,5-bisphosphate     

Synthesis of an iron(II)-braced proline-II tripod protein

This paper describes the engineering of braced tripod proteins for use as molecular frameworks. Specifically, a 30-residue tripod-shaped protein with three proline-II helical legs braced by an iron(II)tris(bipyridine) complex was modularly designed, chemically synthesized, and biophysically characterized. Three copies of a 10-residue leg peptide were covalently linked through sulfide bonds to an N-terminal apex (1,3,5-tris(methylene)benzene) and by amide bonds to the brace (FeII(Mbc)3: Mbc is 4-methyl-2,2-bipyridine-4-carbonyl). The leg peptide (H-Cys-Pro5-Pra(Mbc)-Pro3-NH2: Pra is cis-4-amino-l-proline) was assembled by the solid-phase method using Boc-Pra(Mbc)-OH, which was synthesized in 75% overall yield by coupling Mbc-OH to the 4-amino group of Boc-Pra-OCH3 and saponifying the methyl ester group.The iron(II)-braced tripod was assembled by S-alkylation of three copies of the leg peptide with 1,3,5-tris(bromomethyl)benzene followed by ligation of Fe2+ to the resulting unbraced tripod. The CD spectrum of the iron(II)-braced tripod showed a positive MLCT band at 570 nm and a negative –* band at 312 nm, so its FeII(Mbc)3 brace was predominantly in the configuration. In a mostly acetonitrile solution at 25 °C, the leg peptide and the unbraced tripod isomerized from the proline-II helical form into the proline-I helical form but the iron(II)-braced tripod remained in the proline-II helical form.     

Analysis of some regular systems of inbreeding

Summary A probabilistic method is used to calculate the asymptotic rate of loss of genetic variability for half-sib and first-cousin mating of an infinite number of individuals. For both systems of inbreeding, all probabilities of nonidentity by descent converge to zero at ultimate rates proportional to t ^–1/2, where t is the time in generations. The rate of decay is faster for half-sibs than for first cousins, the respective asymptotic allozygosities being 4(t)^–1/2 and 8(t)^–1/2.Supported by the National Science Foundation (Grant No. DEB77-21494).     

Hämatologische Beobachtungen an Regenbogenforellen (Salmo gairdneri RICH.). V. Die Erythozytenverteilungskurve

Zusammenfassung Für die Fischpathologie wird als differentialdiagnostisches Verfahren die Erythozytenmessung vorgeschlagen. Zur Darstellung der Erythrozytenverteilungskurve wird wegen der elliptischen Form der Fisch-Erythrozyten die in der Humanmedizin übliche Technik modifiziert.An 102 Regenbogenforellen (Salmo gairdneri) beiderlei Geschlechts im Alter von 1 bis 3 Jahren wurde versucht, die Normalkurve für gesunde Tiere dieser Population zu ermitteln. Die Größenverteilung der Erythrozyten ergibt eine Gauss-Glockenkurve, deren Gipfel in die Größenklasse 30–35 µm²/ fällt, und deren Basis von 15–20 µm²/ bis 55–60 µm²/ reicht.Zwischen den Price-Jones-Kurven der Milchner (52 Individuen) und Rogner (50 Individuen) bestehen keine signifikanten Unterschiede. Ebenso konnte keine Beeinflussung dieser Normalkurve durch unterschiedliches Alter oder jahreszeitliche Einflüsse — untersucht wurden in dieser Hinsicht die F₂ — beobachtet werden.

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Summary As differential-diagnostic feature in the fish pathology it is suggested to measure the red blood cells. The normal technique used in human medicine for plotting the distribution curve of the red blood cells is modified, because the red blood cells of the fish are of elliptical shape.102 rainbow trouts (Salmo gairdneri), both, male and female, and 1–3 years of age, were examined to find the normal curve for healthy animals of this population. The size distribution of the red blood cells show a bell-shaped Gauss-curve, the peak of which is 30–35 µm²/, and the basis of which reaches from 15–20 µm²/ to 55–60 µm²/.The Price-Jones-curves show no significant differences between the milters (52 individuals) and the spawners (50 individuals). Besides, changes caused by different age or seasonal influences could not be observed on this normal curve. Analyzed were the F₂ individuals.

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Institut für Siedlungswasserbau und Wassergütewirtschaft der Universität Stuttgart Biologische Abteilung - Arbeitsgruppe Haider     

Recycling of respiratory CO2 during Crassulacean acid metabolism: alleviation of photoinhibition in Pyrrosia piloselloides

The regulation of Crassulacean acid metabolism (CAM) in the fern Pyrrosia piloselloides (L.) Price was investigated in Singapore on two epiphytic populations acclimated to sun and shade conditions. The shade fronds were less succulent and had a higher chlorophyll content although the chlorophyll a:b ratio was lower and light compensation points and dark-respiration rates were reduced. Dawn-dusk variations in titratable acidity and carbohydrate pools were two to three times greater in fronds acclimated to high photosynthetically active radiation (PAR), although water deficits were also higher than in shade fronds. External and internal CO₂ supply to attached fronds of the fern was varied so as to regulate the magnitude of CAM activity. A significant proportion of titratable acidity was derived from the refixation of respiratory CO₂ (27% and 35% recycling for sun and shade populations, respectively), as measured directly under CO₂-free conditions. Starch was shown to be the storage carbodydrate for CAM in Pyrrosia, with a stoichiometric reduction of C₃-skeleton units in proportion to malic-acid accumulation. Measurements of photosynthetic O₂ evolution under saturating CO₂ were used to compare the light responses of sun and shade fronds for each CO₂ supply regime, and also following the imposition of a photoinhibitory PAR treatment (1600 mol·m^-2·s^-1 for 3 h). Apparent quantum yield declined following the high-PAR treatment for sun- and shade-adapted plants, although for sun fronds CAM activity derived from respiratory CO₂ prevented any further reduction in photosynthetic efficiency. Recycling of respiratory CO₂ by shade plants could only partly prevent photoinhibitory damage. These observations provide experimental evidence that respiratory CO₂ recycling, ubiquitous in CAM plants, may have developed so as to alleviate photoinhibition.Abbreviations and symbols CAM Crassulacean acid metabolism - F_M maximal photosystem II fluorescence - F_T terminal steady-state fluorescence - PAR photosynthetically active radiation, 400–700 nm - H⁺ (dawn-dusk) variation in titratable acidity     

The double ππ5.6 helix of gramicidin a predominates in unsaturated lipid membranes

The structure of the channel-forming polypeptide gramicidin A (GA) incorporated into phosphatidylcholine (PC) liposomes has been studied as a function of the degree of unsaturation of the acyl chains of PC. The initial conformational state of GA in reconstituted bilayers is determined by the solvent in which the peptide and the lipid are initially co-dissolved, whereas the equilibrium conformational state (after heat incubation) is affected by the lipid structure rather than by the nature of the solvent. The conformational equilibrium of GA has been studied in liposomes prepared from PC having a variable number of double bonds in the fatty acid moiety, by circular dichroism and Fourier transform infrared. Liposomes were prepared from trifluoroethanol or ethanol solutions and incubated at 68°C. GA was shown to retain the conformation of the right-handed .3 .3 helix in PC with saturated acyl chains and with one double bond, whereas in dilinoleoyl-PC, having two double bond in each chain, the thermodynamically preferred structures are left-handed antiparallel and parallel double 5.6 helices. Natural soybean PC also favours left-handed 5.6 helical structures of GA (75%). This finding is discussed in terms of the role of PC unsaturation in the dynamic properties of the lipid matrix. Differences between observed FTIR spectra of the =5.6 helix in solution (and to a larger extent in the membrane) and the calculated IR spectra can be interpreted as resulting from deviation of the real structure from the theoretically derived ideal helix. The data obtained provide grounds for better understanding of a GA channel functioning in lipids of variable degrees of unsaturation.Abbreviations GA gramicidin A - CD circular dichroism - FTIR Fourier transformed infrared - 2D-NMR two-dimensional nuclear magnetic resonance - DSPC distearoylphosphatidylcholine (di-C18:0) - DPPC dipalmitoyl-PC (di-C16:0) - DMPC dimiristoyl-PC (di-C14:0) - POPC palmitoyloleyl-PC (C16:0-C18:1) - DOPC dioleyl-PC (di-C18:1) - DLPC dilinoleoyl-PC (di-C18:2) - TFE trifluorethanol - SDS sodium dodecylsulfate - TMA-DPH 1-[4(trimethylammonio)-phenyl]-6-phenyl-1,3,5-hexatriene - HPLC high-performance liquid chromatography Correspondence to: V.T. Ivanov     

Vibrational analysis and molecular force field of hypoxanthine as determined from ultraviolet resonance Raman spectra of native and deuterated species

Ultraviolet resonance Raman scattering spectra from aqueous solutions of hypoxanthine and its deuterated species (C8-deuterated, N-deuterated and C8-, N-deuterated derivatives) have been collected and reported in the spectral region between 400 and 1800 cm^–1. The laser excitation wavelengths at 281 nm and 257 nm correspond to preresonance and pure resonance conditions, respectively, with the purine strongly allowed ^* electronic transition: thus the observed experimental Raman features mainly correspond to inplane vibrational modes. The latter were then assigned according to the Wilson GF method by using an empirical harmonic valence force field. Normal mode calculations are based on a non-redundant set of internal coordinates. The calculated vibrational mode wavenumbers and their isotopic shifts upon selective deuterations are in good agreement with the experimental data. The present normal mode analysis rests on the transferability of the guanine and adenine force constants proposed in recent works based on resonance Raman spectroscopy and neutron inelastic scattering data from these major purine bases. Correspondence to: M. Ghomi     

Does glutathione S-transferase Pi (GST-Pi) a marker protein for cancer?

Glutathione S-transferases (GSTs, EC 2.5.1.18) are multifunctional and multigene products. They are versatile enzymes and participate in the nucleophilic attack of the sulphur atom of glutathione on the electrophilic centers of various endogenous and xenobiotic compounds. Out of the five, , and , major classes of GSTs, GST- has significance in the diagnosis of cancers as it is expressed abundantly in tumor cells. This protein is a single gene product, coded by seven exons, that is having 24 kDa mass and pI value of 7.0. Four upstream elements such as two enhancers, and one of each of AP-1 site and GC box regulate gene. During chemical carcinogenesis because of jun/fos oncogenes (AP-1) regulatory elements, specifically GST- is expressed in liver. Therefore this gene product could be used as marker protein for the detection of chemical toxicity and carcinogenesis.     

Spectral sensitivity of visual cells of the compound eye ofBlatta orientalis

Responses of single visual cells of the anterior part of the compound eye of the oriental cockroachBlatta orientalis were recorded intracellularly. Two spectral types of cells were discovered: ultraviolet receptors with _max 361 nm and green-sensitive receptors with _max 503 nm. The spectral curve of the whole eye, measured by the electroretinogram, included two peaks (=350–370 and 500 nm) and a minimum between 400 and 430 nm. This last fact is interpreted as additional evidence of the dichromatic vision of the cockroach.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 17, No. 1, pp. 57–61, January–February, 1985.     

Ultraviolet radiation,ozone depletion,and marine photosynthesis

Concerns about stratospheric ozone depletion have stimulated interest in the effects of UVB radiation (280–320 nm) on marine phytoplankton. Research has shown that phytoplankton photosynthesis can be severely inhibited by surface irradiance and that much of the effect is due to UV radiation. Quantitative generalization of these results requires a biological weighting function (BWF) to quantify UV exposure appropriately. Different methods have been employed to infer the general shape of the BWF for photoinhibition in natural phytoplankton, and recently, detailed BWFs have been determined for phytoplankton cultures and natural samples. Results show that although UVB photons are more damaging than UVA (320–400 nm), the greater fluxes of UVA in the ocean cause more UV inhibition. Models can be used to analyze the sensitivity of water column productivity to UVB and ozone depletion. Assumptions about linearity and time-dependence strongly influence the extrapolation of results. Laboratory measurements suggest that UV inhibition can reach a steady-state consistent with a balance between damage and recovery processes, leading to a non-linear relationship between weighted fluence rate and inhibition. More testing for natural phytoplankton is required, however. The relationship between photoinhibition of photosynthesis and decreases in growth rate is poorly understood, so long-term effects of ozone depletion are hard to predict. However, the wide variety of sensitivities between species suggests that some changes in species composition are likely. Predicted effects of ozone depletion on marine photosynthesis cannot be equated to changes in carbon flux between the atmosphere and ocean. Nonetheless, properly designed studies on the effects of UVB can help identify which physiological and ecological processes are most likely to dominate the responses of marine ecosystems to ozone depletion.Abbreviations BWF biological weighting function - BWF/P-I photosynthesis versus photosynthetically available irradiance as influenced by biologically-weighted UV - Chl chlorophyll a - DOM dissolved organic matter - E _PAR irradiance in energy units (PAR) - E _s saturation parameter for PAR in the BWF/P-I model - E _inh ^* biologically-weighted dimensionless fluence rate for photoinhibition of photosynthesis by UV and PAR - biological weighting coefficient - % MathType!MTEF!2!1!+-% feaafiart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXatLxBI9gBaerbd9wDYLwzYbItLDharqqtubsr% 4rNCHbGeaGqiVu0Je9sqqrpepC0xbbL8F4rqqrFfpeea0xe9Lq-Jc9% vqaqpepm0xbba9pwe9Q8fs0-yqaqpepae9pg0FirpepeKkFr0xfr-x% fr-xb9adbaqaaeGaciGaaiaabeqaamaabaabaaGcbaGafqyTduMbae% baaaa!37AC!\[\bar \varepsilon \]_PAR biological weighting coefficient for damage to photosynthesis by E _PAR - k() diffuse attenuation coefficient for wavelength - MAAs mycosporine-like amino acids - PAR photosynthetically available radiation - P ^B rate of photosynthesis normalized to Chl - P _s ^B maximum attainable rate of photosynthesis in the absence of photoinhibition - UVA ultraviolet A (320–400 nm) - UVB ultraviolet B (280–320 nm)     

Hypo-osmotic stimulation of active Na+ transport in frog muscle: Apparent upregulation of Na+ pumps

Summary The purpose of this work was to determine if hypotonicity, in addition to the stimulation of active Na⁺ transport (Venosa, R.A., 1978,Biochim. Biophys. Acta 510:378–383), promoted changes in (i) active K⁺ influx, (ii) passive Na^– and K⁺ fluxes, and (iii) the number of³H-ouabain binding sites.The results indicate that a reduction of external osmotic pressure () to one-half of its normal value (=0.5) produced the following effects: (i) an increase in active K⁺ influx on the order of 160%, (ii) a 20% reduction in Na⁺ influx and K⁺ permeability (P _K), and (iii) a 40% increase in the apparent density of ouabain binding sites. These data suggest that the hypotonic stimulation of the Na⁺ pump is not caused by an increased leak of either Na⁺ (inward) or K⁺ (outward). It is unlikely that the stimulation of active Na⁺ extrusion and the rise in the apparent number of pump sites produced by hypotonicity were due to a reduction of the intracellular ionic strength. It appears that, at least in part, the stimulation of active Na⁺ transport takes place whenever muscles are transferred from one medium to another of lower tonicity even if neither one was hypotonic (for instance =2 to =1 transfer). Comparison of the present results with those previously reported indicate that in addition to the number of pump sites, the cycling rate of the pump is increased by hypotonicity. Active Na⁺ and K⁺ fluxes were not significantly altered by hypertonicity (=2).     

Effects of solar ultraviolet radiation on the periphyton community in lotic systems: comparison of attached algae and bacteria during their development

The effects of solar ultraviolet radiation (UVR) on the development of a periphyton community were studied in an outdoor artificial stream apparatus. Algal biomass, species composition, and bacterial cell density were measured under full sunlight and non-UVR (photosynthetically active radiation [PAR]-only) conditions. Attachment of algae was detected on days 6–9. Although the chlorophyll-a concentration under non-UVR conditions was 2–4 times that under full sunlight (PAR + UVR) throughout the experiment, neither net algal growth rate nor species composition differed significantly between the two light conditions. The relative carotenoid pigment contents of attached algae in the PAR + UVR condition were 1.1–1.3 times those in the non-UVR condition. Rates of increase of bacterial cell densities under the PAR + UVR condition were depressed by solar UVR for the first few days, although there were no apparent differences in the rates of increase between the light conditions later in the experiment. The small effect of UVR on the development of this periphyton community may be attributable to low UV flux at this study site and to the experimental conditions under which the algae were kept: a high physiological state with high nutrient conditions. Attached bacteria and algae that colonize substrata first are likely to be sensitive to solar UVR, and the negative effects of UVR are mitigated by the development of a periphyton community.