Cellular and Extracellular Polysaccharides of the Blue green Alga Nostoc

The carbohydrate content of various cellular fractions of theblue-green alga Nostoc was studied as a function of age of theculture. The production of extracellular and intracellular polysaccharideswas higher in actively growing cultures. Mannose and glucosewere the main components of cell wall polysaccharides. Glucosamineand diaminopimelic acid were also detected in the cell walls.The kinetics of incorporation of radioactivity from sodium [¹⁴C]bicarbonate showed that the extracellular polysaccharides werelabelled within 10 min of incubation suggesting the active exudationof polysaccharides by this alga. The selective excretion ofpolysaccharides by the alga Nostoc is also suggested.     

Salt Tolerance in Simmondsia chinensis: Water Balance and Accumulation of Chloride, Sodium and Proline Under Low and High Salinity

The response of jojoba [Simmondsia chinensis (Link) Schneid]plants to salinity was studied in solution culture. At concentrationsof 0, 100, 200 and 600 m-mol l^–1 NaCI it was found thatjojoba plants have high tolerance to NaCl. The growth of theseplants was not affected by salinity. They accumulated largeamounts of Cl^–, Na⁺ and proline. These amounts decreasedrapidly in plants transferred back to control medium. Potassiumcontent decreased in NaCl-treated plants and tended to increaserapidly to the control level in plants transferred to controlmedium. The effect of salinity on water balance was not appreciable.As suggested for other xerophytic species, it could be assumedthat the high tolerance of jojoba to salinity plays an importantrole in its ability to endure periods of drought. The role ofproline during or after stress remains an open question. Simmondsia chinensis (Link) Schneid, jojoba, salt tolerance, sodium accumulation, chloride ion accumulation, proline accumulation, xerophytism, drought tolerance     

Ecotypic Variation in the Osmotic Responses of Enteromorpha intestinalis (L.) Link.

Young, A. J., Collins, J. C. and Russell, G. 1987. Ecotypicvariation in the osmotic responses of Enteromorpha intestinalis(L.) Link.—J. exp. Bot. 38: 1309–1324. The physiological basis for salt tolerance has been studiedin the euryhaline marine alga Enteromorpha intestinalis. Adaptationto dilute and concentrated seawaters has been investigated inthree separate populations of this alga: marine, rock pool andestuarine. Internal K⁺, Na⁺ and Cl^– levels have been determined usingtracer efflux analyses. K⁺ has been shown to be the major osmoticsolute within this alga. Cellular levels of Cl^– and, inparticular, Na⁺ are low although levels in the cell wall arehigh. Levels of these ions varied considerably between the separateplants; K⁺ levels within marine plants of E. intestinalis aretwo to four times those found in the other populations. Thetertiary sulphonium compound ß-dimethylsulphonio-propionateis maintained at relatively high levels, although it remainsfairly insensitive to change in the external salinity. Changes in the tissue water content and cell volume are large,particularly within the estuarine plants. The thin cell wallsof these plants allow large changes in volume in the diluteconditions experienced in an estuary, while low turgor preventscell rupture. Thicker cell walls and small cells of the marineand rock pool plants assist in tolerating high and low externalosmotic potential—the estuarine plants respond poorlyto concentrated seawater. Key words: Enteromorpha, osmoregulation, ecotypes     

BIOTIN LIBERATION BY THE LICHEN ALGA COCCOMYXA SP. AND BY CHLORELLA PYRENOIDOSA

The unicellular green alga Coccomyxa, a component of the lichenPeltigera aphthosa, liberated about 7.2mµg biotin permg dry weight of cells into the culture medium during a growthperiod of 15–20 days. The corresponding figure for thefree-living alga Chlorella pyrenoidosa was 0.45mµg ofbiotin. Chromatographic analysis indicated that this was freebiotin and not a bound form of the vitamin. The biotin concentrationof rinsed Coccomyxa cells was 1.88mµg per mg dry weightof cells, of which less than 0.01mµg was extractable byhot water. Cells of Chlorella contained 0.16mµg of biotinper mg dry weight, of which 0.11mµg was extractable byhot water. The biotin content of Coccomyxa, which was about12 times that of Chlorella, is thus almost entirely in the boundform. The importance of biotin in the symbiotic interactionsbetween the alga and the fungus in Peltigera is discussed. ¹Present address: University Department of Agriculture, Oxford,England. ²Present address: Institute of Marine Resources, Universityof California, La Jolla, California, U.S.A.     

Overexpression of wheat Na+/H+ antiporter TNHX1 and H+-pyrophosphatase TVP1 improve salt- and drought-stress tolerance in Arabidopsis thaliana plants

Transgenic Arabidopsis plants overexpressing the wheat vacuolarNa⁺/H⁺ antiporter TNHX1 and H⁺-PPase TVP1 are much more resistantto high concentrations of NaCl and to water deprivation thanthe wild-type strains. These transgenic plants grow well inthe presence of 200 mM NaCl and also under a water-deprivationregime, while wild-type plants exhibit chlorosis and growthinhibition. Leaf area decreased much more in wild-type thanin transgenic plants subjected to salt or drought stress. Theleaf water potential was less negative for wild-type than fortransgenic plants. This could be due to an enhanced osmoticadjustment in the transgenic plants. Moreover, these transgenicplants accumulate more Na⁺ and K⁺ in their leaf tissue thanthe wild-type plants. The toxic effect of Na⁺ accumulation inthe cytosol is reduced by its sequestration into the vacuole.The rate of water loss under drought or salt stress was higherin wild-type than transgenic plants. Increased vacuolar soluteaccumulation and water retention could confer the phenotypeof salt and drought tolerance of the transgenic plants. Overexpressionof the isolated genes from wheat in Arabidopsis thaliana plantsis worthwhile to elucidate the contribution of these proteinsto the tolerance mechanism to salt and drought. Adopting a similarstrategy could be one way of developing transgenic staple cropswith improved tolerance to these important abiotic stresses. Key words: H⁺-pyrophosphatase, Na⁺/H⁺ antiporter, salt and drought tolerance, sodium sequestration, transgenic Arabidopsis plants     

Solute Regulation in the Euryhaline Marine Alga Enteromorpha prolifera (O. F. Mull) J. Ag.

Young, A. J., Collins, J. C. and Russell, G. 1987. Solute regulationin the euryhaline marine alga Enteromorpha prolifera (O. F.Mll) J. Ag.—J. exp. Bot. 38: 1298–1308. The physiological basis for salt tolerance has been studiedin the euryhaline alga Enteromorpha prolifera. Levels of inorganicions and organic (compatible) solutes have been measured. K⁺makes the major contribution towards the internal osmotic potentialof the cell, while Cl^– and, in particular, Na⁺ contentsare low. Levels of the organic solute ß-dimethylsulphonio-propionate(DMSP) are high but are fairly insensitive to changes in theexternal salinity. Levels of amino-acids, calcium, phosphateand sulphate contribute relatively little towards the internalosmotic potential of the alga. As salinity is altered there are marked changes in the tissuewater content and volume. These changes directly affect theconcentration of the osmotic solutes within the cell. In diluteseawaters there is an increase in turgor as there is littlechange in the internal solute content of the cell compared tovalues in normal sea water. Inorganic ions, in particular K⁺,and organic solutes are accumulated in concentrated seawaters,although concentrations greater than 2·00 x seawaterresult in a reduction in the internal osmotic potential of thecell, mainly through loss of K⁺. Key words: Enteromorpha, salinity, osmoregulation     

Ethylene evolution in marine algae and a proteinaceous inhibitor of ethylene biosynthesis from red alga

Fronds of marine algae, especially green alga, Codium latum,and red alga, Porphyra tenera, evolved a quantity of ethylenewhen IAA was exogenously applied, while brown alga, Padina arborescens,evolved only a little. Propionic acid, when added together withIAA, noticeably enhanced IAA-induced ethylene evolution in P.tenera and P. arborescens. This evolution was also enhancedby added acrylic acid in P. arborescens but not in P. tenera.It was promoted by methionine, though only at a high concentration(0.1 M), in P. tenera but not in P. arborescens. The rate ofethylene evolution was highest at 12?C among the incubationtemperatures tested of 5, 12 and 15?C. The conversion of ¹⁴C-3-methionineto radioactive ethylene in P. tenera was remarkably inhibitedby a proteinaceous inhibitor from P. tenera. ¹Present address: Division of Environmental Biology, NationalInstitute for Environment, Yatabe, Ibaraki, Japan. (Received May 27, 1976; )     

Movement of Ions and Electrogenesis in Microorganisms

The relationship between movement of ions and the electricalproperties of microorganisms (algae, fungi, and bacteria) arereviewed, with particular emphasis on the giant alga, Nitella,and the fungus, Neurospora. The hypothesis is presented thatthere are two basically different components to the membranepotential of both organisms: (1) one arising from the diffusionof sodium, potassium, and hydrogen ions down their chemicalgradients, and (2) one associated with the utilization of energyand the active efflux of hydrogen ions, and attributed to an"electrogenic H⁺ pump." Numerous discrepancies between the measuredelectrical properties of the algae or fungi and the predictionsof ordinary ion-diffusion theory can be accounted for by suchan H⁺ pump, and its existence is further supported by a fewindirect experiments on the bacteria.     

Effects of Metabolic Inhibitors on the Calcification of a Freshwater Green Alga Gloeotaenium loitlesbergarianum Hansgirg. 2. Effects of Some Inhibitors of Protein Synthesis

The effects of five inhibitors of protein synthesis, viz. streptomycin,aurin tricarboxylic acid, tetracycline, chloramphenicol, andcycloheximide, on the calcification of Gloeotaenium loitlesbergarianumHansgirg, a freshwater green alga were studied. Streptomycinhad no effect while aurin tricarboxylic acid at 50 µgml^–1 and tetracyline, chloramphenicol and cycloheximideat 20 µg ml^–1 completely inhibited calcificationin the alga. High concentrations of chloramphenicol and cycloheximidewere not completely inhibitory when added 26 h and 32 h respectivelyafter the material was incubated in the induction medium. Itis concluded that the effects by these substrates are the resultsof inhibition of protein synthesis, which is directly or indirectlylinked to calcification. calcification, Gloeotaenium loitlesbergarianum Hansgirg, green alga, chlorophyceae, protein synthesis inhibitors     

Effects of Radiations on Blue-green Algae: II. Effects in Growth

The unicellular blue-green alga Anacystis nidulans was repeatedlytreated with X-rays and radiophosphate (32P) during successivesubcultures. The strains so obtained were characterized by comparisonwith the untreated control strain, with respect to their resistanceto ultraviolet light, X-rays, streptomycin, and isoniazid. The³²P-treated strain was found to be relatively more resistantto streptomycin than the untreated strain and the X-rayed strainwas found to be relatively rnore sensitive to isoniazid thanthe control. In old cultures, cells of the X-rayed strain weresignificantly smaller than those of the untreated strain. The effects of X-rays on cell- and heterocyst dimensions ofthe nitrogen-fixing alga Chlorogloea fritschii Mitra were studied.In the irradiated material the cell diameter and heterocystbreadth were greater, rather than smaller, than in unirradiatedmaterial.     

Divalent cation and anion currents are activated during the dark-induced transient hyperpolarization of the plasma membrane of the green alga Eremosphaera viridis

Darkening after illumination induces a transient hyperpolarizationof the plasma membrane of the unicellular green alga Eremosphaeraviridis de Bary. With electro-physiological methods, in particularthe two electrode voltage-clamp technique, we investigated theion fluxes involved in this transient potential change (TP).The question was whether other ion currents besides those carriedby the known Ca²⁺-dependent K⁺ channel take part in this actionpotential-like, but hyperpolarizing, response. At maximum hyperpolarizationvoltage-clamp measurements resulted in ‘N-shaped’I/V curves, known from other botanical systems. The differentinstantaneous current components of the N-shaped I/V curvesoccurred at different times during a single transient potentialchange (TP). Substitution of alkali metal cations in the bathingsolution by NMG/NO₃ showed that the inward currents in the I/Vcurves were not carried by an influx of K⁺ into the cytoplasm.The voltage amplitude of the TP not only depended on the externalK⁺ concentration, but also on the Mg²⁺ concentration in thebathing solution. Increasing Mg²⁺ concentrations shifted themembrane potential in the top of the TP in the direction ofthe Nernst potential of Mg²⁺ and resulted in an increased inwardcurrent component of the N-shaped I/V curves. Another currentcomponent was found to be carried not by cations but by an effluxof anions. It was a voltage-dependent component with a maximumcurrent amplitude at voltages of about –220 to –240mV, and was blocked by the anion channel inhibitors anthracen-9-carboxylicacid (A9C), (5-nitro-2-3-phenylpropylamino) benzoic acid (NPPB)and ZnCI2. Based on these data a model is proposed which explainsthe N-shape of the I/V curves observed during the transientpotential change of the alga E. viridis by the combination ofan inward cation current with an inward anion current and theoutward cation current carried by the Ca²⁺-dependent K⁺ channels. Key words: Anion current, cation current, Eremosphaera viridis, potassium channel, voltage-clamp     

Comparative mapping of HKT genes in wheat, barley, and rice, key determinants of Na+ transport, and salt tolerance

Salt tolerance of plants depends on HKT transporters (High-affinityK⁺ Transporter), which mediate Na⁺-specific transport or Na⁺-K⁺co-transport. Gene sequences closely related to rice HKT geneswere isolated from hexaploid bread wheat (Triticum aestivum)or barley (Hordeum vulgare) for genomic DNA southern hybridizationanalysis. HKT gene sequences were mapped on chromosomal armsof wheat and barley using wheat chromosome substitution linesand barley–wheat chromosome addition lines. In addition,HKT gene members in the wild diploid wheat ancestors, T. monococcum(A^m genome), T. urartu (A^u genome), and Ae. tauschii (D^t genome)were investigated. Variation in copy number for individual HKTgene members was observed between the barley, wheat, and ricegenomes, and between the different wheat genomes. HKT2;1/2-like,HKT2;3/4-like, HKT1;1/2-like, HKT1;3-like, HKT1;4-like, andHKT1;5-like genes were mapped to the wheat–barley chromosomegroups 7, 7, 2, 6, 2, and 4, respectively. Chromosomal regionscontaining HKT genes were syntenic between wheat and rice exceptfor the chromosome regions containing the HKT1;5-like gene.Potential roles of HKT genes in Na⁺ transport in rice, wheat,and barley are discussed. Determination of the chromosome locationsof HKT genes provides a framework for future physiological andgenetic studies investigating the relationships between HKTgenes and salt tolerance in wheat and barley. Key words: Barley, comparative mapping, HKT, rice, salt tolerance, sodium transport, wheat     

Abolition of Heavy Metal Toxicity on Kirchneriella lunaris (Chlorophyta) by Calcium

The green alga Kirchneriella lunaris was incubated with variousheavy metals (Cd²⁺, Co²⁺, Mn²⁺, Ni²⁺) in presence/absence ofcalcium (Ca²⁺). The uptake of heavy metal was affected by Ca²⁺.Growth rate was inhibited by all heavy metals applied. In allCa²⁺-containing cultures Kirchneriella exhibited higher ratesof growth than those containing heavy metal alone. Photosynthesis/respirationratio of K. lunaris cells seems to be the determinant in thiswork. Ca²⁺ variably abolished the effects of the heavy metalsstudied. Maximal positive effect of Ca²⁺ was found with Cd²⁺while with Ni²⁺ it was negligible.Copyright 1995, 1999 AcademicPress Cadmium, cobalt, manganese, nickel, calcium, heavy metals, growth, photosynthesis, Kirchneriella lunaris     

Purification and Characterization of a Ca2+-Dependent Protein Kinase from the Halotolerant Green Alga Dunaliella tertiolecta

A Ca²⁺-dependent protein kinase (CDPK) that has been partiallypurified and characterized previously [Yuasa and Muto (1992)Arch. Biochem. Biophys. 296: 175] was further purified to about20,000-fold from the soluble fraction of Dunaliella tertiolecta.The enzyme preparation contained 60- and 52-kDa polypeptidesboth of which phosphorylated casein as a substrate. Both polypeptidesshowed a Ca²⁺-dependent increase in mobility during SDS-PAGEand ⁴⁵Ca²⁺-binding activity after SDS-PAGE and electroblottingonto a nitrocellulose membrane, suggesting that both the 60-and 52-kDa CDPKs directly bind Ca²⁺. The protein kinase inhibitors,K-252a and staurosporine, inhibited the CDPK competitively withrespect to ATP. An antibody raised against the 60-kDa CDPK crossreactedwith both the 60- and 52-kDa polypeptides. Both molecular specieswere autophosphorylated in the presence of Ca²⁺, and a highlyphosphorylated 80-kDa band appeared in addition to these phosphorylatedbands at 60 and 52 kDa in SDS-PAGE. However, the specific activityof CDPK was not changed by prior autophosphorylation when theautophosphorylated enzyme was assayed as a mixture of thesephosphorylated molecular species. Only the 60-kDa polypeptidewas immunodetected in subcellular fractions of Dunaliella cells.The 52-kDa polypeptide increased during storage of the enzyme.These results suggest that the 52-kDa polypeptide is a proteolyticartifact produced during purification. Immunoreactive bandsof 60-kDa were detected in extracts of several green algae butnot in extracts of higher plants or a brown alga. ¹This research was partly supported by Grants-in-Aid from theMinistry of Education, Science and Culture, Japan (No. 06454013and 06304023) and Research Fellowship of the Japan Society forthe Promotion of Science for Young Sciencists. ²Research Fellow (PD) of the Japan Society for the Promotionof Science.     

THE EFFECT OF PROFLAVINE ON DIFFERENT STRAINS OF THE BLUE-GREEN ALGA ANACYSTIS NIDULANS

The growth of the blue-green alga Anacystis nidulans was inhibitedby relatively low concentrations of proflavine. The durationof the lag phase increased linearly with increasing proflavineconcentrations. The alga neither acquired increased toleranceto the drug during the course of six subcultures in proflavine-supplementedmedia nor was there any shortening of lag-phase or increasein final population density following repeated subculture inproflavine medium. The strain obtained after six subcultures in proflavine wasfound to have become more sensitive to streptomycin than theuntreated stock strain. A comparison of sensitivity to proflavine of two streptomycin-resistantstrains and of untreated stock strain of the alga revealed thatthe streptomycin-resistant strains were less sensitive to proflavinethan the untreated strain. The resistance of a strain resistant to 200 µg streptomycin/mlwas lost after it had been cultured once in streptomycin-freebasal medium that had been supplemented with 1 µg proflavineµml.The results obtained provide some indirect evidence for theexistence of episome in A. nidulans. ¹Present temporary address: Division of Biosciences, NationalResearch Council, Ottawa-2, Canada.     

An Inwardly Rectifying Cation Current across the Plasma Membrane of the Green Alga Eremosphaera viridis

Ion currents across the plasma membrane of the unicellular greenalga Eremosphaera viridis were characterized with electrophysiologicalmethods, especially the two electrode voltage-clamp-technique.Under different conditions, at increased external Cl^–concentrations or after perfusion of different anion channelblockers (A9C (anthracen-9-carboxylic acid), NPPB ((5-nitro-2-3-phenylpropylamino)benzoic acid) and ZnCl₂), increased instantaneous negative currentswere observed. The negative currents were carried by cationfluxes into the cell. The transporter responsible had low selectivityamong potassium and sodium. Additionally also divalent cationswere transported. The cation influx was not affected by thepotassium channel inhibitors TEA (tetraethylammoniumsulfate),Ba²⁺ or Cs⁺ at concentrations of 1 mM, but was strongly reducedby 100 µM AlCl₃. Our results with E. viridis demonstrate,for the first time for an unicellular alga, the existence ofan inwardly rectifying cation current across the plasma membrane.Parallels and differences to inwardly rectifying cation currentsand channels described in plasma membranes of other plant cellsare discussed. (Received May 10, 1993; Accepted September 13, 1993)     

Respiration-Dependent H+ Efflux from Intact Cells of Cyanidium caldarium

An active H⁺ efflux depending on respiration was found in anacidophilic unicellular alga, Cyanidium caldarium. Alkalizationof the medium due to passive H⁺ transport into the cells wasobserved when the respiratory activity was inhibited by addingrespiratory poisons, such as rotenone or antimycin A, or byintroducing pure nitrogen into the cell suspension. The extentof the H⁺ influx increased as the pH of the medium was loweredto 2.9, indicating that H⁺ leaks into the cells according tothe pH gradient across the plasma membrane. The medium pH whichhad increased under anaerobic condition returned to the originallevel with aeration of the cell suspension. This suggests thatan active H⁺ transport, related to respiration, pumps out theexcess H⁺ accumulated in the cells during anaerobic preincubation.The pH changes in the cell suspension were related to the intracellularATP level. From these results it was concluded that active H⁺efflux dependent upon oxidative phosphorylation functions inthe dark to maintain a constant intracellular pH against passiveH⁺ leakage through the plasma membrane. The light-induced H⁺ efflux and the respiration-dependent H⁺efflux were also compared in relation to the physiological roleof the active H⁺ efflux, especially with respect to the intracellularpH regulation in this alga. ¹The data in this paper are included in the Ph. D. dissertationsubmitted by M. Kura-Hotta to Tokyo Metropolitan University. (Received February 3, 1984; Accepted June 14, 1984)     

CHLOROPHYLL AMOUNT AS AN INDICATOR OF MATTER PRODUCTIVITY IN BIO-COMMUNITIES

The data of chlorophyll amounts in diverse bio-communities arecompiled and discussed with reference to matter production. The chlorophyll amount in euphotic zone of lakes and oceanswas less than 1 g/m², mostly less than 0.1 g/m². In phytoplanktonblooms it was ca. 0.1–1 g/m². Large values of 5–20g/m² were obtained in the outdoor mass cultures of Chlorella,in which the high population density and chlorophyll contentof the alga were observed. In terrestrial higher plant communitiesthe chlorophyll amount (ca. 1–10 g/m²) was usually higherthan in aquatic phytoplankton communities. The largest (13.3g/m²) was obtained with an evergreen gallery forest in Thailand.The chlorophyll amount of desert bio-community could be expectedto be as high as that in water blooms. The maximum chlorophyll amount in bio-communities seems to attainup to 20 g/m² when the conditions are favorable. ¹ Dedicated to Prof. H. TAMIYA on the occasion of his 60th birthday. (Received December 25, 1962; )     

Turnover of the Intracellular Mannitol Pool of Fucus spiralis L. (Fucales, Phaeophyta) during Osmotic Shock

13C {¹H} nuclear magnetic resonance spectroscopy has been usedto study the turnover of the low-molecular weight carbohydratemannitol in the marine brown alga Fucus spiralis L. During incubationof plants in seawater medium with ¹³C enriched bicarbonate,all of the NMR-visible ¹³C appeared in mannitol; no significant¹³C-labelling of laminaran was observed in seawater, in a hypo-salineor in a hyper-saline medium. Pulse-chase experiments showedthat intracellular mannitol was subject to turnover (half-time20 h), the rate of carbon assimilation into mannitol being slightlygreater than the dissimilation rate, possibly due to net mannitolsynthesis during growth. Fucus spiralis was conservative in the use of mannitol as anintracellular osmoticum. In a hypo-saline medium, mannitol showedno substantial change while potassium, the major cellular cation,was reduced. In contrast, mannitol increased substantially overa 12 h incubation period in a hyper-saline medium, whereas potassiumcontent remained constant. Mannitol assimilation and dissimilation rates were not affectedsignificantly by transfer to a hypo-saline medium. The increasedmannitol content of plants incubated in a hyper-saline mediumappeared to be due to a significant increase in the mannitolassimilation rate. Key words: Mannitol, Fucus, Phaeophyta, ¹³C-NMR, osmotic adjustment