Storage of in vitro cultures of Prunus rootstocks

In vitro cultures of three Prunus clones (d. 1869, GF 677 and CAB 11E) were successfully stored at +8°, +4° and-3°C following the proliferation phase.Survival of cultures was dependent upon interactions of storage temperature, light, and age of subculture. Up to 100% of the cultures survived at the end of the trials after 170 (at +4°C) and 200 (at-3°C) days storage. Complete dardness appeared more suitable than 16-h (hour) photoperiod for successful storage at-3°C for up to 10 months. One or two weeks in normal growth room vefore storage at-3°C for up to 10 months. One or two weeks in normal growth room before storage enhanced the survival S^-1. The proliferation of the cultures following storage at-3°C in the first subculture appeared similar to those under standard growth room conditions.Part of the results were presented as a poster at the 10th Congress of Eucapia in Wegeningen, The Netherlands, 19–24 June 1983.This paper in No. 504 of the Istituto Coltivazioni Arboree and No. 232 of the Centro Studi Tecnica Frutticola. The research was partially supported by National Research Council (Roma), G.L. Difesa risorse genetiche delle specie arboree.     

Quantitative X-ray microanalysis of calcium with the Camebax-TEM system in frozen,freeze-substituted and resin-embedded tissue sections

Summary The relevance of the continuum method for a quantitative X-ray microanalysis of epon embedded tissue sections in the particular conditions offered by the Camebax-TEM system was tested and an improved model of specimen holder is proposed.The absolute calcium concentration [Ca] of membrane-bound intracellular glio-interstitial granules was determined by X-ray microanalysis in transmission electron microscopy of Mytilus retractor muscle. The Ca peak and background values were measured by the wavelength-dispersive spectrometer of the Camebax; the mass thickness of the section was recorded simultaneously with an added energy-dispersive detector. The tissue was frozen at 77 K in a mixture of liquid propane and butane, freeze-substituted in the presence of oxalic acid and embedded in epoxy resin. The calcium concentration of glio-intestitial granules can be as high as 180 mmol·kg^–1 of epoxy-embedded tissue, with an average of 40 mmol·kg^–1. The sampling of the data through repcated experiments is discussed and it is proposed that the cell would be the main level of variation. The Ca content of glio-interstitial granules is significantly lower in the tissbes of animals submitted to high-potassium artificial seawater for 10 min. This finding was predicted by the hypothesis that glio-interstitial tissue is a regulator of calcium concentration in extracellular spaces.     

Microwave fixation of rust-infected wheat leaves

Summary Wheat leaves infected with stem rust (Puccinia graminis tritici) were infiltrated with fixative, subjected to microwave irradiation, and sliced with a vibratome. The slices were probed with antibodies, lectins, or neoglycoproteins, and processed for electron microscopy, In tissue irradiated for 10 sec to 40°C, 45°C, or 50°C, the quality of structural preservation was indistinguishable from that in control tissue subjected to conventional fixation (3 h in fixative at room temperature). The best preservation of fungal antigenic cell surface material was achieved with 10 sec of microwave-induced heating to 45°C in the presence of fixative, followed by 10 min in fixative at room temperature. Under these conditions, twice as many antigenic sites were detected on the fungal surface than in non-irradiated (power-off control, or conventionally-fixed) tissue. The microwave fixation protocol with heating to 45°C was used in experiments to probe infected tissue with lectins or neoglycoproteins. Most of these probes had been labelled with biotin, and this label was detected with goat anti-biotin IgG and rabbit anti-goat IgG/gold. The gold markers were localized mainly at some distance outside the outer wall layer of hyphal cells, indirectly confirming the presence of unstained extramural material that had been detected in earlier work in freeze-substituted specimens. Of seven lectins, all with demonstrated ability to bind to cross sections of intercellular hyphal walls, only concanavalin A and wheat germ lectin bound to the fungal surface. Of four neoglycoproteins, -D-glucosyland -D-mannosyl-BSA bound to this surface, but only the binding of the glucosyl conjugate was inhibitable with hapten. We concluded that the surface composition of these cells is less complex than previously suggested from studies using post-embedding cytochemistry.Abbreviations BSA bovine serum albumin - ConA concanavalin A - IWF intercellular washing fluid - NC nitrocellulose - OD optical density - PBS phosphate-buffered saline - PEG polyethylene glycol - TBS Tris-buffered saline     

Polychromatic staining of epoxy semithin sections: a new and simple method

A simple, rapid method is described for the polychromatic coloration of semithin sections, which is applicable to material routinely processed for transmission electron microscopy. Material fixed with a glutaraldehyde-paraformaldehyde mixture and postfixed in osmium tetroxide with or without potassium ferrocyanide and embedded in different types of resin (Durkupan-ACM, Spurr resin, Taab resin) can be used. Constant and homogenous results are obtained with this technique, the staining procedure being achieved at room temperature in no more than 10 min. Sections of 0.5–1 m in thickness are oxidised and bleached. After washing, sections are stained in two steps with carbol methylene blue/carbol gentian violet solution and pararosaniline solution. Using the method described in this paper, a polychromatic coloration of the different cells and tissues was obtained (epithelial cells in various shades of blue-violet, connective tissue and elastic laminae of blood vessels in pink or red, etc.). This procedure provides greater contrast between cytoplasm and nuclei, and among the different types of cells and tissues than is seen with toluidine blue, which is very useful for observation and photography of semithin sections. Polychromatic methods found in the literature are normally complex and require a lengthy staining time or cannot be applied on material routinely processed for transmission electron microscopy. Our method is simple, rapid and can be used on any type of material routinely processed for transmission electron microscopy and embedded in epoxy resins.     

Adjustment of thylakoid plastoquinone content and Photosystem I electron donor pool size in response to growth temperature and growth irradiance in winter rye (Secale cereale L.)

Winter rye (Secale cereale L. cv Musketeer) grown at 5 °C/250 µmol photons m^–2 s^–1 exhibited a relative reduction state of PS II comparable to that of rye grown at 20 °C but high light (800 µmol photons m^–2 s^–1) (1-q_P = 0.32) whereas winter rye grown at 20 °C/250 µmol photons m^–2 s^–1 exhibited values of 1-q_P ( 0.15) comparable to plants grown at 5 °C but low light (50 µmol photons m^–2 s^–1). The apparent size of the electron donor pool to PS I, estimated either in vivo or in vitro in the presence of methylviologen by A₈₂₀ was positively correlated with the relative reduction state of PS II under the steady-state growth conditions. Immunoblotting of rye thylakoid polypeptides indicated that the relative contents of Lhcb1, Lhcb2, D1, Cyt f, PC, PsaA/PsaB heterodimer and the -subunit of ATPase complex exhibited minimal changes on a Chl basis. In contrast, a 2-fold increase in plastoquinone A content was associated with increasing growth irradiance at growth temperatures of either 5 or 20 °C. We suggest that the increases in the apparent size of the electron donor pool to PS I associated with rye grown at either 5 °C/250 µmol photons m^–2 s^–1or 20 °C/800 µmol photons m^–2 s^–1 may be explained by an increased thylakoid plastoquinone A content, coupled with possible enhanced PS I cyclic electron transport and/or increased capacity for electron donation from the stroma to the intersystem electron transport chain. The results are discussed with respect to photosynthetic adjustment to changes in PS II excitation pressure in winter rye.     

The combined relationship of temperature and molybdenum concentration to nitrogen fixation byAnabaena cylindrica

The joint effects of growth temperature, incubation temperature, and molybdenum concentration on the nitrogen fixation rate ofAnabaena cylindrica were determined using the acetylene-reduction technique. The nitrogen-fixation response to increased molybdenum concentration varied among three growth temperatures (15°, 23°, and 30° C). The pattern of rate change was similar within a growth temperature but increased overall in magnitude with the three incubation temperatures (also 15°, 23°, and 30° C). The maximum rate of nitrogen fixation occurred at 30°C regardless of previous growth temperature. The minimum molybdenum concentration necessary to yield substantial acetylene reduction varied with growth temperature: at 15°C, 15g 1^–1 was effective; at 23°C, less than 5g 1^–1 was effective; and at 30°C, 50g 1^–1 was effective. At all three growth temperatures, increases in molybdenum concentration above the minimum effective concentration produced increases in acetylene reduction. However, at higher molybdenum concentrations inhibition of nitrogen fixation occurred.     

A procedure for preservation of the mosquito pathogen Culicinomyces clavisporus

Summary An effective storage procedure has been demonstrated for the mosquito pathogen Culicinomyces clavisporus. A mycelial preparation was harvested by filtration, sprayed with a sucrose solution and air dried at 20°C in a laminar flow cabinet until the mycelial mat became crisp. This material was then ground in a hammer mill and particles of less than 355 m were sieved out. Viability of the particles was assessed by studying mycelial growth and conidial formation when particles were added to water agar plates or to water. The particles retained 100% viability after 9 weeks storage at-20°C or 6 days at 4°C. Preparations lost activity rapidly if stored at 20°C. Conidia produced by this method were pathogenic to mosquito larvae.     

Photosynthetic activities of a membrane preparation of the thermophilic cyanobacterium Mastigocladus laminosus

Photosynthetically active membranes have been prepared from the thermophilic cyanobacterium Mastigogladus laminosus by treatment with lysozyme. The membranes were active in electron transport through photosystem I and II as well as in photophosphorylation and proton uptake. Cells were grown at 40°, 45° and 55°C respectively. The temperature optimum of oxygen evolution of whole cells was about 10°C higher than the growth temperature. In isolated membranes the temperature optimum for cyclic photophosphorylation was identical to the growth temperature of the cells whereas the optimum for photosystem II electron transport never exceeded 40°C. Photophosphorylation was inhibited by N, N-dicyclohexyl carbodiimide (DCCD), carbonyl-cyanide-m-chlorophenylhydrazone and NH₄Cl, whereas proton uptake was enhanced by DCCD. Electron transport was slightly inhibited by these treatments. The membranes could be stored for several weeks at-20°C in 50% glycerol without any loss in the activities.Abbreviations DPIP 2,6-dichlorophenolindophenol - CCCP Carbonyl-cyanide-m-chlorophenylhydrazone - DCCD N,N-dicyclohexyl carbodiimide - PMS N-methylphenazonium methosulfate - DCMU 3-(3-4-dichlorophenyl)-1,1-dimethylurea - TMP 20 mM Tris-HCl buffer pH 7.8, 10 mM MgCl₂, 5 mM phosphate buffer pH 7.8     

Chloroplast biogenesis at cold-hardening temperatures. Development of photosystem I and photosystem II activities in relation to pigment accumulation

Chloroplast biogenesis during continuous illumination at either low, cold-hardening temperatures (5°C) or non-hardening temperatures (20°C) was examined by monitoring the etioplast-chloroplast transformation with respect to pigment accumulation and the development of PSI- and PSII-associated electron transport activities in winter rye (Secale cereale L. cv Puma). Generally, chlorophyll and carotenoid accumulation during greening at 20°C were characterized by rapid initial rates in contrast to pronounced, initial lag times during biogenesis at 5°C. Although greening temperature had no effect on the sequential appearance of PSI relative to PSII, greening temperature significantly altered the pattern of appearance of PSI relative to chlorophyll accumulation. Thylakoid biogenesis under continuous illumination at 20°C imposed a pattern whereby the development of PSI activity was antiparallel to chlorophyll accumulation. In contrast, the development of PSI activity under continuous illumination at 5°C was paralllel to chlorophylll accumulation. These developmental patterns were independent of the temperature experienced during etiolation. However, rye seedlings etiolated at 20°C and subsequently subjected to continuous illumination at 5°C exhibited a 70% reduction in the maximum PSII activity (100 mol DCPIP reduced.mg Chl^-1.h^-1) attained relative to that observed for similar etiolated seedlings greened at 20°C (300 mol DCPIP reduced.mg Chl^-1.h^-1). This low temperature-induced inhibition could be alleviated by an initial 2 h exposure to continuous light at 20°C prior to greening to 5°C. Rye seedlings etiolated at 5°C attained similar maximal PSII activities (300 mol DCPIP reduced.mg Chl^-1.h^-1) regardless of the greening temperature. We suggest that the altered kinetics for pigment accumulation, the low temperature-induced change in the pattern for the appearance of PSI activity relative to chlorophyll accumulation and the differential sensitivity of 20° and 5° etiolated seedlings to greening temperature reflect an alteration in membrane organization incurred as a consequence of thylakoid assembly at low temperature.Abbreviations RH cold-hardened rye - RNH non-hardened rye - MV methylviologen - ASC ascorbate - Chl chlorophyll - DCPIP dichlorophenol indophenol     

Reduced photoinhibition with stem curling in the resurrection plant Selaginella lepidophylla

Summary Selaginella lepidophylla, the resurrection plant, curls dramatically during desiccation and the hypothesis that curling may help limit bright light-induced damage during desiccation and rehydration was tested under laboratory conditions. Restraint of curling during desiccation at 25° C and a constant irradiance of 2000 mol m^–2 s^]t-1 significantly decreased PSII and whole-chain electron transport and the F_v/F_m fluorescence yield ratio following rehydration relative to unrestrained plants. Normal curling during desiccation at 37.5°C and 200 mol m^–2 s^–1 irradiance did not fully protect against photoinhibition or chlorophyll photooxidation indicating that some light-induced damage occurred early in the desiccation process before substantial curling. Photosystem I electron transport was less inhibited by high-temperature, high-irradiance desiccation than either PSII or whole-chain electron transport and PSI was not significantly affected by restraint of curling during desiccation at 25°C and high irradiance. Previous curling also helped prevent photoinhibition of PSII electron transport and loss of whole-plant photosynthetic capacity as the plants uncurled during rehydration at high light. These results demonstrate that high-temperature desiccation exacerbated photoinhibition, PSI was less photoinhibited than PSII or whole-chain electron transport, and stem curling ameliorated bright light-induced damage helping to make rapid recovery of photosynthetic competence possible when the plants are next wetted.     

Respiration rates of Chiloplacus sp. and other arctic nematodes at low and high temperatures

Summary Respiration of an undescribed species of soil nematode of the genus Chiloplacus from the Canadian High Arctic was measured at 2°, 5°, 10°, 15°, 20° and 25°C. The corresponding metabolic rates were 0.2697×10^-3 l, 0.3406×10^-3 l, 0.8408×10^-3 l, 0.8539×10^-3 l, 1.8420×10^-3 l and 2.9360×10^-3 l O₂ ind^-1 h^-1, respectively, for a nematode of 1.0 g dry weight. The relationship between respiration and dry weight for Chiloplacus sp. at 10°C is described by the function log R=-3.0693+0.8844 log W. Q₁₀ values for the 2°–5°, 5°–10°, 10°–15°, 15°–20° and 20°–25°C temperature intervals were 2.18, 6.09, 1.03, 4.65 and 2.54, respectively. Chiloplacus sp. showed raised metabolic rates at low tempetatures compared with species from warmer environments. Metabolic rates of representative samples of the soil, nematode fauna (dominated by individuals of the genus Plectus) from the same location were 0.1593×10^-3 l, 0.3603×10^-3 l and 0.5332×10^-3 l O₂ ind^-1 h^-1 at 5°, 10° and 15°C for an average nematode of 0.4297 g dry weight.     

Phase transitions in plant cuticles

The effect of temperature on wet plant cuticles has been investigated with the following techniques: Calorimetry, densitometry, spin-label electron-spin-resonance-(ESR)-spectroscopy, photo bleaching, and light and electron microscopy. At low temperatures cuticles ofCitrus aurantium L. andHedera helix show, at 16.3°C, a sharp transition (T0.5°C) with a latent heat of 4.7±0.5 J g^-1-cuticle. Below transition: The main orientation of the polymer matrix is parallel to the normal of the cuticle and the main orientation of the layer with soluble lipids is perpendicular to the normal. The cuticle is in a rigid state. Above transition (between 16.3°C and 38°C): Only the orientation of the polymer matrix has changed (tilted in parts). There exist several very sharp (T0.1°C) transitions (38°C, 41°C, 45°C, 49°C, ...) with a latent heat in the order of 0.4 J g^-1-cuticle. Above 38°C: The lamella of the soluble lipids is in a fluid state. Above 45°C there is a change in the molecular orientation of the soluble lipids as well as in the polymer matrix. The soluble lipids are mainly oriented parallel to the normal. The dry cuticles show no phase transition between 0°C and 200°C. At room temperature a dry/wet transition can be observed.Abbreviations ESR-spectroscopy electron-spin-resonance-spectroscopy     

Camptothecine from callus cultures of Nothapodytes foetida

Callus cultures were established from excised embryos of Nothapodytes foetida on Murashige and Skoog medium supplemented with picloram (2 mg l^–1) and 3% (w/v) sucrose. The embryos developed into callus after 4 weeks of incubation at 25 ± 2°C in dark. The cultures produced camptothecine and 9-methoxy-camptothecine as determined by TLC, UV, HPLC, electron spray mass spectral analysis.     

A comparison of proline, thiol levels and GAPDH activity in cyanobacteria of different origins facing temperature-stress

Three cyanobacterial strains originating from different habitats were subjected to temperature shift exposures and monitored for levels of proline, thiol and activity of glyceraldehyde-3-phosphate dehydrogenase (GAPDH). Thermophile Mastigocladus laminosus (growth optimum, 40 °C), raised the proline level 4.2-fold at low temperature (20 °C), for the psychrophile Nostoc 593 (growth optimum, 20 °C), it was raised 8-fold at 40 °C while in the mesophile Nostoc muscorum (growth optimum, 30 °C), the imino acid level increased 2.3-fold during temperature shiftdown to 20 °C or 3.5-fold in sets facing shiftup (40 °C). Alterations in thiol levels in the above strains were in line with proline. It is suggested that such fluctuations reflect metabolic shifts as a response to stress. Interestingly, GAPDH activity was maximum at the respective growth temperature optimum of M. laminosus (122 nmol NADPH oxidized min ^–1 mg ^–1 protein) and Nostoc 593 (141 nmol NADPH oxidized min ^–1 mg ^–1 protein) while in N. muscorum, it increased at 40 °C (101 nmol NADPH oxidized min ^–1 mg ^–1 protein) and to 93.3 nmol NADPH oxidized min ^–1 mg ^–1 protein (20 °C) relative to 86 nmol NADPH oxidized min ^–1 mg ^–1 protein at 30 °C. It seems that extremophiles maintain the GAPDH activity/level during growth at their respective temperatures optimal while the mesophile increases it in order to cope up with temperature-stress.     

Uptake of sulfate,sulfite and thiosulfate by proton-anion symport in Desulfovibrio desulfuricans

pH changes and sulfide production upon addition of sulfate, sulfite or thiosulfate to non-buffered H₂-saturated cell suspensions of Desulfovibrio desulfuricans were studied by means of electrodes. The addition of these electron acceptors resulted in a rapid alkalinization of the suspension which was accompanied by sulfide production. At-2° C, alkalinization without immediate sulfide production could be obtained. After addition of ³⁵S-labelled sulfate at-2° C, the label was found to be concentrated 7,500-fold in the cells, while 2 protons per sulfate molecule had disappeared from the outer bulk phase. Alkalinization and sulfide production from micromolar electron acceptor additions depended on the transmembraneous proton gradient ( pH), and were reversibly inhibited in alkaline solution (pH>8.0) or by the protonophore carbonylcyanide m-chlorophenylhydrazone (CCCP). Protonophore-inhibited sulfide production from sulfite or thiosulfate could be restored if the cell membranes were permeabilized by the detergent cetyltrimethylammonium bromide (CTAB), or if downhill transport was made possible by the addition of electron acceptors at millimolar concentrations. Sulfate was not reduced under these conditions, presumably because the cells did not contain ATP for its activation. K⁺-and Na⁺-ionophores such as nigericin, valinomycin or monensin appeared to be of limited efficiency in D. desulfuricans. In most experiments, sulfate reduction was inhibited by the K⁺–H⁺ antiporter nigericin in the presence of K⁺, but not by the thiocyanate anion or the K⁺-transporter valinomycin. The results indicate that sulfate, sulfite and thiosulfate are taken up by proton-anion symport, presumably as undissociated acids with an electroneutral mechanism, driven by the transmembraneous pH gradient ( pH) or by a solute gradient. Kinetics of alkalinization and sulfide production in cells grown with different electron acceptors revealed that D. desulfuricans has different specific uptake systems for sulfate and thiosulfate, and obviously also for sulfite. It is proposed that the electron acceptor transport finally will not consume net energy during growth in buffered medium: The protons taken up during active electron acceptor transport leave the cell with the reduced end-product by simple passive diffusion of H₂S.Abbreviations CCCP carbonyl cyanide m-chlorophenylhydrazone - FCCP carbonyl cyanide p-trifluoromethoxy phenylhydrazone - CTAB cethyltrimethylammonium bromide     

CO2-Fixierung und Stofftransport in benthischen marinen Algen

Summary After local assimilation of NaH¹⁴CO₃ by an old frond of Laminaria hyperborea, radioactive photosynthate is translocated to the growing region of the thallus. The pathway of this long-distance transport was studied by histoautoradiography. Cellular localization of the conducting channels was accomplished by new autoradiographic methods including freeze-substitution and 1 m-cuttings of epoxy resin embedded tissue. In the autoradiographs, patches of silver grains overlying single trumpet-filaments (=Trompetenzellen) indicated that downward translocation occurs in these cells only. It could be shown that predominantly young trumpetfilaments contain the bulk of labeling. It is concluded that the young filaments rather than the older ones are particularly active in translocation. A lateral movement of labelled material was not observed except in the growing region.     

Superoxide production by thylakoids during chilling and its implication in the susceptibility of plants to chilling-induced photoinhibition

Factors influencing the rate of superoxide (O ₂ ^- ) production by thylakoids were investigated to determine if increased production of the radical was related to injury induced by chilling at a moderate photon flux density (PFD). Plants used were Spinacia oleracea L., Cucumis sativus L. and Nerium oleander L. grown at either 200° C or 45° C. Superoxide production was determined by electron-spin-resonance spectroscopy of the (O ₂ ^- )-dependent rate of oxidation of 2-ethyl-1-hydroxy-2,5,5-trimethyl-3-oxazolidine (OXANOH) to the corresponding oxazolidinoxyl radical, OXANO ·. For all plants, the steady-state rate of O ₂ ^- production by thylakoids, incubated at 25° C and 350 mol photon · m^–2 · s^–1 (moderate PFD) with added ferredoxin and NADP, was between 7.5 and 12.5 mol · (mg chlorophyll)^–1 · h^–1. Incubation at 5° C and a moderate PFD, decreased the rate of O ₂ ^- production 40% and 15% by thylakoids from S. oleracea and 20° C-grown N. oleander, chillinginsensitive plants, but increased the rate by 56% and 5% by thylakoids from C. sativus and 45° C-grown N. oleander, chilling-sensitive plants. For all plants, the addition of either ferredoxin or methyl viologen increased the rate of O ₂ ^- -production at 25° C by 75–100%. With these electron acceptors, lowering the temperature to 5° C caused only a slight decrease in O ₂ ^- production. In the absence of added electron acceptors, thylakoids produced O ₂ ^- at a rate which was about 45% greater than that when ferredoxin and NADP were present. The addition of 3-(3,4-dichlorophenyl)-1,1-dimethylurea reduced O ₂ ^- production under all conditions tested. The results show that the rate of O ₂ ^- production increases in thylakoids when the rate of electron transfer to NADP is reduced. This could explain differences in the susceptibility of thylakoids from chilling-sensitive and chilling-insensitive plants to chilling at a moderate PFD, and is consistent with the proposal that O ₂ ^- production is involved in the injury leading to the inhibition of photosynthesis induced under these conditions.Abbreviations Chl chlorophyll - DCMU 3-(3,4-dichlorophen-yl)-1,1-dimethylurea - Fd ferredoxin - MV methyl viologen - 20°oleander Nerium oleander grown at 20° C - 45°-oleander N. oleander grown at 45° C - OXANOH 2-ethyl-1-hydroxy-2,5,5-tri-methyl-3-oxazolidine - PFD photon flux density (photon fluence rate) - TEMED tetramethyl ethylenediamine We would like to thank R.T. Furbank, R.S.B.S., Australian National University, Canberra, A.C.T., and C.B. Osmond, now of Duke University, Durham, N.C., USA, for the gift of ferredoxin, R.A.J.H. was supported by a Commonwealth Postgraduate Research Award.     

Purification and characterization of β-mannanase from Bacillus licheniformis for industrial use

An easily scaled-up technique has been designed to purify -mannanase from Bacillus licheniformis. Using flocculation, ultrafiltration and ion-exchange chromatography, the enzyme was purified 33-fold with a final recovery of 47% and a specific activity of 4341 U mg^–1protein. The enzyme had maximum activity at 60 °C and pH 7.0. It was stable at 50 °C and pH 6.0 for 6 h, but lost all of its activity when held at 70 °C and pH 6.0 for 1 h.     

Productivity and temperature biology of two snowbed bryophytes

Summary Chlorophyll distribution within the carpets, CO₂ gas exchange under controlled conditions, and heat resistance of the snowbed bryophyte Anthelia juratzkana (Limpr.) Trev. were investigated. Also the gas-exchange parameters of the co-occurring Polytrichum sexangulare Floercke were assessed. Only the uppermost 4 mm layer of Anthelia carpets contains sufficient pigments for photosynthesis. At light saturation and optimal temperatures (6–11°C) the maximum rates of CO₂ uptake are 0.7 mg CO₂ g^-1dw h^-1 in Anthelia and 1.5 mg CO₂ g^-1dw h^-1 in Polytrichum. Gas exchange reaches light saturation at about 300 E m^-2s^-1 in both species. At +2°C the light compensation point is reached at ca. 10E m^-2s^-1 and increases significantly with increasing temperature. The lower temperature compensation point is reached at-4°C in Anthelia and does not drop much below-5°C in Polytrichum. Anthelia cannot sustain net photosynthesis beyond 30°C and Polytrichum not beyond 32°C. Nine month storage under dark, cold and wet conditions does not affect the photosynthetic capability of Anthelia. As a response, however, the net photosynthesis rate is depressed due to an increase of the respiration rates. Polytrichum sexangulare did not tolerate the storage so well. The heat resistance limit of Anthelia is low (39°C). There is evidence that the distribution of the two bryophytes within snowbed communities is determined by their capability to make use of low light intensities and their low temperature demand for optimal photosynthetic rates. Being resistant to long lasting cold, wet, and dark conditions, Anthelia is particularly adapted to grow in the border zone along permanent snowpatches. Polytrichum is more productive and is therefore capable of competing successfully at sites which are less extreme and therefore accessible for higher plants.     

Permeability changes resulting from virus-cell fusion: temperature-dependence of the contributing processes

Summary A new assay for membrane fusion, using the fluorescent probe pyrene-sulphonyl-phosphatidyl ethanolamine, has been developed. Fusion between the envelope of Sendai virus and human erythrocytes or Lettre cells has a Q₁₀ of 4 at 37° C, increasing to 7 at 7 ° C; there is no lag to onset of fusion. Viral neuraminidase has a Q₁₀ of 2.3 between 37° C and 4° C. Its action limits the extent of fusion by causing the elution of virus; this effect is particularly marked at low temperature because of the difference in Q₁₀ for fusion and neuraminidase. The temperature-dependence of the initiation of permeability changes following the removal of inhibitory amounts of Ca²⁺ is 2; thus membrane fusion is the principal temperature-sensitive step during the permeabilization of cells by Sendai virus. A recovery process, by which cells become insensitive to the removal of Ca²⁺ and which therefore limits the extent of permeabilization, has a Q₁₀ of 7.4 between 37° C and 21° C. It is concluded that the lag to onset of permeability changes is not due to a lag in virus-cell membrane fusion, but to the gradual acquisition of a threshold level of membrane damage; the extent of permeabilization depends on the rate of fusion relative to the rates of neuraminidase and recovery.