Formation of Radioactive Citrulline during Photosynthetic C14O2-Fixation by Blue-Green Algae

Citrulline has been isolated and identified from extracts ofNostoc muscorum. All members of the Cyanophyceae hitherto investigatedshow a relatively large amount of the CO₂ fixed during photosynthesisin citrulline (ranging as high as 20 per cent. in Nostoc) whencompared to the trace amounts found in the Chlorophyceae. Nostocalso has the ability to fix C¹⁴ in citrulline during dark fixation,but at a rate slower than in light. As no free urea or arginine was found in Nostoc, it is likelythat citrulline is functioning in reactions other than thoseleading to arginine and urea synthesis. Other possible functions for citrulline are briefly discussed.     

An Examination of some Symbiotic Systems for Fixation of Nitrogen

By the use of ¹⁵N the occurrence of fixation of elemental nitrogenhas been demonstrated in the lichens Collema granosum and Leptogiumlichenoides (both of which contain Nostoc as a symbiont), andalso in the liverwort Blasia pusilla (which has Nostoc-containingcavities in the thallus). The circumstances indicate that thefixation in these instances should be attributed to the Nostoc. No evidence of fixation was obtained in similar isotopic testson the mycorrhizal roots of intact plants of Calluna vulgarisand of Pinus sylvestris, although these, more especially inthe case of Calluna, have been held by some previous authorsto be nitrogen-fixing.     

The role of extracellular polysaccharides produced by the terrestrial cyanobacterium Nostoc sp. strain HK-01 in NaCl tolerance

The terrestrial cyanobacterium Nostoc sp. HK-01 was more tolerant to NaCl stress than the aquatic cyanobacterium Anabaena sp. PCC 7120 (also called Nostoc sp. PCC 7120) which is similar to Nostoc sp. HK-01 in phylogeny. We determined the amount of extracellular polysaccharides (capsular and released polysaccharides) from the cells of both strains cultured with or without 200 mM NaCl. The amount of capsular polysaccharides from Nostoc HK-01 reached approximately 65% of the dry weight whereas that from Anabaena PCC 7120 only occupied approximately 18% of the dry weight under NaCl stress. Anabaena PCC 7120 grew well under NaCl stress when both polysaccharides from Nostoc HK-01 were added to the culture. However, Anabaena PCC 7120 barely grew under NaCl stress when both of its polysaccharides were added. Extracellular polysaccharides from Nostoc HK-01 contained abundant fucose and glucuronic acid in comparison with those from Anabaena PCC 7120. Under NaCl stress, the composition ratios of sugars in the extracellular polysaccharides from Anabaena PCC 7120 hardly changed in comparison with those in ordinary culture conditions. By contrast, the composition ratios of sugars in the extracellular polysaccharides from Nostoc HK-01 changed under NaCl stress. These results suggest that the effect of extracellular polysaccharides from Nostoc HK-01 on NaCl tolerance comes from the increased amount of capsular polysaccharides, the sugar composition, and the change of the sugar composition ratio under NaCl stress.     

Calanoid copepods feeding on algae and filamentous cyanobacteria: rates of ingestion, defaecation and effects on trichome length

The relative abilities of freshwater calanoid copepods to grazealgae and filamentous cyanobacteria were examined in three speciesof Boeckella (B.triarticulata, B.hamata, B.dilatata) fed Cydotella,Cryptomonas and two species of Nostoc and Anabaena. Althoughrates of ingestion were highest on Cryptomonas, all the Boeckellaspecies consumed cyanobacteria, some species at similar ratesto Cyclolella. Faecal production on the foods was highest onCydotella and, in B.triarticulata, higher on A.flos-aquae andNostoc sp. 2 than on Cryptomonas. At 1 mg l^–1 of thesecyanobacteria, female B.triarticulata voided 70% by volume ofthe material they ingested as compact faecal pellets. By theirgrazing they also decreased dramatically the trichome lengthsof A.flos-aquae, A.oscillarioides and Nostoc sp. 2, therebypossibly altering the potential susceptibility of these filamentouscyanobacteria to grazing by other zooplankton.     

A Comparative Study of the Biological Activities of Two Molecular Species of Chloroplast-type Ferredoxins

Pairs of two molecular species of soluble chloroplast-type ferredoxins(Fd I and Fd II) from Nostoc muscorum and Aphanothece sacrumwere used to examine and compare the abilities of ferredoxinto substitute for spinach ferredoxin in the photoreduction ofNADP⁺ by spinach chloroplasts or N. muscorum membrane fragmentsand to link the reducing power of illuminated spinach chloroplaststo the Bacillus polymyxa nitrogenase system. Ferredoxins II of Nostoc and Aphanothece showed rather low activitiesin NADP⁺ photoreduction and nitrogenase system with spinachchloroplasts as the photosensitizer, compared to other ferredoxins.However, there was no difference between two ferredoxins (FdI and Fd II) from Nostoc in NADP⁺ photoreduction by photosyntheticmembrane fragments prepared from the same organism, N. muscorum. The biological significance of two molecular species of ferredoxinsin one organism could be ascribed to the different contributionof each ferredoxin to certain biological reactions in whichferredoxin functioned as an electron carrier. (Received November 4, 1980; Accepted January 9, 1981)     

The Fate of Sulphate within the Capsular Polysaccharide of the Unicellular Red Alga Rhodella maculata

³⁵SO^2–₄ was used in pulse-chase experiments to study themetabolism of sulphate in the capsular polysaccharides of R.maculata. Radioactivity reached an equilibrium between the chiefintracellular pools during an 8 h pulse and there was no lossof radioactivity from the cells during an extended chase ofup to 14 d, until cultures reached stationary growth phase.Any loss then found was due to dissociation of sulphated capsularmaterial from the cells. The failure of biochemical assays todetect extracellular sulphatase or sulphotransferase activitiessupports the conclusion from pulse-chase experiments that thereis no turnover of sulphate in the capsular polysaccharide ofR. maculata. Key words: sulphated polysaccharides, sulphate turnover, Rhodella     

Diet selection by copepods in the presence of cyanobacteria

Boeckella, the dominant calanoid in many Southern Hemispherelakes, can survive, grow and reproduce to varying extents onmonocultures of cyanobacteria. In this study, we determinedthe effects of algal and cyanobacterial foods of different nutritionalvalue and concentration on food preferences of adult femaleBoeckella trianiculata and Boeckella hamata. Four species ofcyanobacteria (Anabaena flos-aquae, Nostoc sp. 2, OscillatoriatenuisandMicrocystis aeruginosa) were offered alone and mixedwith equal biomasses of Cryptomonas sp., Choricystis or a cyanobacterium.Food preferences were calculated as ratios of the rates at whichthe copepods removed each food at high and low food concentrations.In high-concentration mixtures with cyanobacteria, Cryptomonaswas consistently preferred by both Boeckella spp. In low-concentrationmixtures, both Boeckella spp. preferred Anabaena and Nostoc,which they removed at high rates(81–142 ml mg^–1h^–1), although Cryptomonas was selected in preferenceto Oscillatoria and Microcystis. When fed mixtures of filamentouscyanobacteria, both species of Boeckella showed invariant discriminationagainst Nostoc, andshifts in preference between Anabaena andOscillatoria that were related to food concentration. Microcystis,the least favouredfood, appeared to have a toxic effect on B.triarticulata. ¹Present address: Nursing and Midwifery Department, Otago Polytechnic,Forth Street, Dunedin, New Zealand     

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     

Genetic diversity in cyanobacterial symbionts of thalloid bryophytes

Two species of thalloid liverworts, Blasia pusilla and Caviculariadensa, form stable symbioses with nitrogen-fixing cyanobacteria.Both bryophytes promote the persistence of their cyanobacterialassociations by producing specialized gemmae, which facilitatethe simultaneous dispersal of the host and its nitrogen-fixingsymbionts. Here the genetic diversity of cyanobacterial symbiontsof Blasia and Cavicularia is examined. The results indicatethat the primary symbionts of both bryophytes are closely relatedand belong to a specific group of symbiotic Nostoc strains.Related strains have previously been reported from hornwortsand cycads, and from many terricolous cyanolichens. The evolutionaryorigins of all these symbioses may trace back to pre-Permiantimes. While the laboratory strain Nostoc punctiforme PCC 73102has been widely used in experimental studies of bryophyte–Nostocassociations, sequence-identical cyanobionts have not yet beenidentified from thalloid liverworts in the field. Key words: Blasia pusilla, bryophyte, Cavicularia densa, Nostoc, tRNA^Leu(UAA) intron, specificity, symbiosis Received 27 May 2007; Revised 15 November 2007 Accepted 21 December 2007     

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; )     

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)     

Effect of Brefeldin A on the synthesis and transport of cell wall polysaccharides and proteins in pea root seedlings

The in vivo effect of Brefeldin A (BFA) on the synthesis andtransport of cell wall polysaccharides and proteins in the rootsof pea seedlings (Pisum sativum L. cv. Alaska) was investigated.BFA (10µgml^—1 inhibited the synthesis of cell wallmatrix polysaccharides by approximately 43%. Under the sameconditions, cellulose synthesis was inhibited by approximately77%. The percentage of incorporation of L—[U—¹⁴C]leucineand L-[U-14C]proline into cytosolic, membrane and cell wallproteins was only slightly changed in the presence of BFA. Inaddition, the drug did not change the pattern of newly synthesizedproteins in the three fractions as judged by SDS—PAGEfluorography. Double labelling of proteins and cell wall polysaccharidesconfirmed the above reported data. All these results showedthat the synthesis and transport of proteins to the cell wallwas only slightly affected by BFA under similar conditions tothose which brought about a strong inhibition of the synthesisof matrix and cellulosic polysaccharides. BFA had no effecton the activity of membrane-bound and digitonin-solubilizedmannan and glucomannan synthase isolated from the third internodeof pea seedlings. This would exclude an effect of BFA at thelevel of the catalytic site of the synthases. The inhibitionof polysaccharide synthesis by the drug was rapidly eliminatedafter its removal. It is concluded that the effect of BFA onthe biosynthesis of cell wall polysaccharides could be causedby an interaction of the drug with the topological organizationof the synthase complexes in the membranes. This effect wouldprecede the action of the drug at the level of vesicle transportto the walls. Key words: Brefeldin A, cell wall polysaccharides (synthesis and transport), Pisum sativum L, polysaccharide synthases, proteins (synthesis and transport)     

Effects of Ions and Membrane Potential on the Elongation of the Unicellular Green Alga Closterium

Cells of the unicellular green alga Closterium ehrenbergii elongatedexclusively at septa and for 4–5 hours after cell division.Cell elongation was strongly inhibited by a decrease in eitherthe external concentration of Ca²⁺ or pH, and was also inhibitedby several competitive Ca²⁺ channel blockers. Changes in concentrationsof other external ions had no effect on the elongation. Theaverage concentrations of ions in the intracellular fluid ofthe interphase cell before cell division was as follows (inmM): K⁺=56.5, Na⁺=4.8, Ca²⁺=2.4, Mg²⁺=1.3, Cl^–=59.5; thepH was 7.4. The levels of K⁺, Na⁺ and Cl^– ions decreasedsignificantly with cell elongation, suggesting that this process,which proceeds with water uptake, surpasses ion absorption.The plasma membrane potential (Vm) in both the interphase cellsand in the elongating cells was in the range of –90 to–105 mV (interior negative). The Vm was entirely determinedby the simple diffusion of K⁺. A decrease in the external concentrationof Ca²⁺ caused depolarization, probably by an indirect effectof low Ca²⁺. Changes in the extracellular level of H⁺ and othercations barely affected Vm. Thus, external Ca²⁺ and H⁺ are concludedto affect cell elongation but not via a change in the Vm acrossthe plasma membrane. (Received February 29, 1988; Accepted June 8, 1988)     

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     

A Biochemical and Autoradiographic Study of the Role of the Golgi Bodies in Thecal Formation in Platymonas tetrathele

Hydrolysates of the theca of Platymonas tetrathele have shownthat it is a pectin-like material with galactose, galacturonicacid, and arabinose as the major components. Exogenous glucoseor galactose taken up by the alga is incorporated into the thecaand into starch, but is not respired. Electron microscopic autoradiographyhas been used to trace the incorporation of tritiated glucoseinto starch and into polysaccharides in the Golgi bodies andsubsequentlyinto the theca. The extracellular polysaccharideproduced by this alga is similar to the theca in compositionand may have a common origin.     

DISTRIBUTION AND TURNOVER OF PHOSPHATE COMPOUNDS IN GROWING CHLORELLA CELLS

1. Using the Chlorella cells which had been uniformly labeled with³²P, the distribution of phosphorus in various fractions ofcell material was investigated. Uniformly ³²P-labeled Chlorellawas further grown in a P-free medium or in a standard "cold"medium, and the change of distribution of ³²P (as well as theuptake of exogenous P) in various cell fractions was followed.
2. Analysis of the ³²P-labeled algal cells showed that the highestin P-content was the fraction of RNA followed by those of polyphosphates,lipid, nucleotidic labile phosphate compounds, DNA and protein(in decreasing order). ATP and ADP were found to be only minorfractions of the total labile phosphates.
3. On incubating the³P-labeled alga in a P-free medium, the P.contentsin the fractionsof DNA, protein, lipid and ATP increased, thosein polyphosphatesand ADP decreased, and that in RNA remainedalmost unchanged.When the ³²P-labeled alga was further grownin the normal "cold"medium, DNA and protein increased withthe expenditure of endogenous³²P, but with practically no incorporationof external P. Inthe meantime the P in polyphosphates decreasedconsiderably,and the RNA fraction incorporated a large amountof externalP but only a little of endogenous³²P.
4. It was inferred that,under the experimental conditions of thepresent study, thephosphorus used in the syntheses of DNA andprotein was primarilytaken from polyphosphates, while thatused in the synthesesof RNA, phospholipid and polyphosphateswas, for the most part,taken from the extracellular P-source.

¹A part of this paper was read at the Vth International Congressof Biochemistry, Moscow, August 10–16, 1961. (Received June 4, 1961; )     

23Na and 7Li NMR study of Nitella cell walls before and after an ion-induced loss of the cationic exchange capacity

²³Na- and ⁷Li-NMR studies were conducted on isolated cell wallsof Nitella to monitor the changes induced in the pectin matrixafter the cation exchange capacity was reduced to about 60%of its initial value by a pretreatment with a 500 mM LiCl solution.Walls in Ca²⁺ form were exchanged with NaCl and LiCl solutionsbefore and after this pretreatment. In the whole cell wall equilibratedwith 10, 35 and 100 mM NaCl solutions or mixtures at the sametotal concentrations of Na⁺ and Li⁺ in the same proportions,the ²³Na- and ⁷Li-NMR spectra were all characterized by onlyone signal. The Na⁺ and Li⁺ relaxation times were drasticallyshorter than those recorded in aqueous solution but the twoNa⁺ relaxation rates increased linearly with the Na⁺ concentrationin the external solutions. In contrast, in the cell wall wherethe CEC had been reduced, the Na⁺ relaxation times were longerand no correlation with external concentrations was obtained.The ⁷Li spectra in walls equilibrated with 500 mM LiCl displayedtwo distinct lines suggesting different Li⁺ bonding affinitiesfor the wall polyuronides. These data are interpreted in thescheme proposed by Gillet et al. (1994) to explain the competitiveeffects of alkaline ions on the wall pectin disorganizationvia disruption of divalent cation crosslinks, but also of solvation-likebonds between cell wall polymers. Key words: ²³Na, ⁷Li, NMR, Nitella, pectic polysaccharides, cell wall     

Growth and Osmoregulation of Chaetoceros muelleri in Relation to Salinity

The growth and osmoregulation of Chaetoceros muelleri Lemmermann(Bacillariophyceae) were investigated as a function of salinity.This centric diatom grew well over a wide range of salinityand required concentrations of NaCl above 10 mM for growth.Using gas chromatography- mass spectroscopy (GC-MS) analysisof cell extracts, we demonstrated that the alga contains anisomer of cyclohexanetetrol. The level of this isomer increasedwith increasing salinity. Levels of free amino acids also increasedwith increasing salinity, and quantitative determination withan amino acid analyzer revealed that the level of glutamic acidincreased the most with increases in salinity. Levels of intracellularK⁺ and Cl^– also increased significantly with increasesin salinity. Thus, in C. muelleri, not only organic solutessuch as the cyclohexanetetrol isomer and glutamic acid, butalso inorganic solutes such as K⁺ and Cl^– contribute toosmoregulation. (Received November 7, 1994; Accepted April 10, 1995)     

Effects of xylopine on physiological activities of Scenedesmus obliquus

Xylopine, an aporphine alkaloid contained in the bark of Xylopiadiscreta strongly inhibits growth of Scenedesmus obliquus; 50%inhibition was caused by 2x10^–5 M of xylopine. Photosynthesis was also strongly inhibited by xylopine at concentrationsabove 10^–4 M. Effects on photosynthesis, however, differeddepending on the ratio of alkaloid concentration to cell concentrationin the reaction mixture, so that under certain experimentalconditions with concentrations of xylopine below 10^–4M, there was some acceleration of photosynthesis. Xylopine strongly inhibited the HILL reaction with benzoquinoneas the HILL oxidant. Respiration was not affected at concentrationscompletely inhibiting photosynthesisd growth of the alga. A probable role of the aporphine alkaloid in controlling lichengrowth in nature is discussed. (Received March 25, 1970; )     

Pectin Depolymerase Activities Associated with Cell Walls from Cicer arietinum L. Epicotyl

The hydrolytic activity of the proteins extracted with 3 M LiClfrom chick-pea (Cicer arietinum) cell walls to pec-tic fractionsextracted with 50 mM trans-l,2-diaminocy-clohexane-N,N,N,N,-tetraaceticacid (CDTA) and 50 mM sodium carbonate was studied. The pecticfractions contained acidic polysaccharides with high molecularmass (higher than 5 x 10³ kDa), mainly composed of uronic acids,galac-tose, arabinose and rhamnose. The extracted proteins depo-lymerizedthe pectic polysaccharides and also a commercial preparationof polygalacturonic acid from citrus, detected by a decreasein their viscosity and a shift of their molecular mass distribution.The extract was able to depolymerize a uronic acid-rich componentin all the cases, although in different extent. Also, with regardto the CDTA-soluble pectins, a degradation of polyuronide anda shift of the molecular mass distribution of arabinogalactanwas observed. (Received March 11, 1997; Accepted September 10, 1997)