Lysis of Gymnodinium breve by cultures of the green alga Nannochloris eucaryotum

Laboratory cultures of Florida's red tide organism, Gymnodinium breve, were killed by the green alga Nannochloris eucaryotum. Studies involved organism-organism interaction as well as organism-cell-free culture (N. eucaryotum) interaction. Both studies demonstrated that N. eucaryotum adversely affected Florida's red tide organism. The lysis has been attributed to compounds called APONINs (apparent oceanic naturally occurring cytolins). N. eucaryotum crude APONIN was extracted from cell-free cultures, partially purified and fractionated. The fractions were bioassayed against G. breve, and 'fingerprints' of the deleterious fractions were obtained.     

Carotenoid production and change of photosynthetic functions in Scenedesmus sp. exposed to nitrogen limitation and acetate treatment

Under stress conditions, some microalgae up-regulate certain biosynthetic pathways, leading to the accumulation of specific compounds. For example, changing nutrient composition can induce stress in algae’s physiological activities, which may trigger an intense increase in carotenoid production. In this study, the change of photosynthetic functions and carotenoid production in the green microalga Scenedesmus sp. was investigated when algal cultures were exposed to conditions including limited nitrogen content with the addition of sodium acetate. Microalgal cultures were treated for 18 days under higher irradiance conditions. We observed a decrease of chlorophyll content induced concomitantly with a decline of photosystem II and I photochemistry. At the same time, an important increase in carotenoid content was detected. By using high-performance liquid chromatographic analysis, we found that the secondary carotenoids astaxanthin and canthaxanthin were accumulated compared to controls. During the process of carotenoid accumulation, chlorophyll degradation was found in addition to a strong decrease in photosynthetic electron transport. Such changes may be associated with the structural reorganization of the photosynthetic apparatus and can be a useful indicator of secondary carotenoid accumulation in algal cultures.     

Aerobiosis and the hemoprotein content of photosynthetic bacteria

Summary Rhodospirillum rubrum and Rhodopseudomonas spheroides, grown under various degrees of illumination, aeration, and iron deprivation, have been assayed for their content of cytochrome c, RHP, catalase, total iron, bacteriochlorophyll, and carotenoids.Concentrations of bacteriochlorophyll and carotenoids were consistent with the findings of Cohen-Bazire et al. (1957).Total iron content, which ranged from 0.017 to 0.04% of the dry weight, reflected the content of the principal hemoproteins but exceeded the amount of iron in these hemoproteins.The catalase content of R. rubrum, on a dry weight basis, was 0.0005% for cells grown anaerobically in the light, and 0.0028% for cells grown in darkness with vigorous aeration; that of Rps. spheroides was 0.006% and 0.25%, respectively. The catalase content in both species rose with increasingly vigorous aeration.Cytochrome c in both species, and RHP in R. rubrum, attained the same levels in cells grown under vigorous aeration as in cells grown anaerobically in the light. In cells grown under limited aeration the levels of these substances were about 50% higher. In Rps. spheroides the RHP content was greatest in cells grown anaerobically, falling under gentle aeration and declining further under more vigorous aeration.Iron deficiency caused a decrease in the catalase content of cells grown anaerobically in the light but not in cells grown aerobically. The content of cytochrome c and of RHP was diminished by iron depletion in aerobic cultures, but not in anaerobic cultures.operated by Union Carbide Corporation for the U.S.Atomic Rnergy Commission.     

Production of canthaxanthin by <Emphasis Type="Italic">Haloferax alexandrinus</Emphasis> under non-aseptic conditions and a simple,rapid method for its extraction

The production of carotenoids from Haloferax alexandrinus strain TM(T) was investigated at various concentrations of NaCl (10-25%) in culture media under non-aseptic conditions. PCR and dot blot hybridization assays were employed to monitor the growth of Hfx. alexandrinus in the culture under aseptic and non-aseptic conditions. The amplified PCR products of 16S rDNA from Hfx. alexandrinus grown under aseptic conditions were used as specific probes, which bound with amplified PCR products of 16S rDNA dots from both aseptic and non-aseptic conditions (20-25% NaCl). The results indicated that contamination of the culture was precluded at high NaCl concentrations (20-25%). Therefore, it is not necessary to perform asepsis during the biotechnological processes of carotenoid production by Hfx. alexandrinus. A 1-l-scale cultivation of the cells in flask cultures under non-aseptic conditions produced 3.12+/-0.5 g dry weight, 6.34+/-2.5 mg total carotenoids and 2,156.67+/-0.1 microg canthaxanthin. Further experiments in a batch fermenter, under non-aseptic conditions, also demonstrated increases in the biomass concentration and carotenoid production. When grown in a standard growth medium at 25% NaCl, the cells of Hfx. alexandrinus lysed spontaneously in fresh water and hence carotenoids could be extracted directly from the cells without any mechanical disintegration. These results demonstrate the feasibility and simplicity of commercial production of carotenoids using Hfx. alexandrinus.     

Mutant strains of Rhodopseudomonas spheroides which form photosynthetic pigments aerobically in the dark. Growth characteristics and enzymic activities

Mutant strains of Rhodopseudomonas spheroides have been isolated which contain 5–50 times more bacteriochlorophyll and carotenoids than the wild type when grown under highly aerobic conditions in the dark. Their pigment content is similar to the wild type when grown in the light. One of the mutants (TA-R) grew more slowly than its parent strain under aerobic conditions but formed pigments at about 60% of the rate observed under photosynthetic conditions. The other mutants grew at rates similar to the wild type under all conditions. Synthesis of bacteriochlorophyll by suspensions of the mutants began without delay upon transfer from conditions of high to low aeration. In contrast to the wild type, magnesium protoporphyrin-S-adenosylmethionine methyltransferase (EC 2.1.1.11) activity in particulate preparations from the mutants was not repressed by growth under aerobic conditions in the light or dark. Ribulose diphosphate carboxylase (EC 4.1.1.39) activity was repressed by O₂ in the mutants as in the wild type. Other enzyme activities were compared in mutant TA-R and its parent strain grown under the same conditions. NADH oxidase activity in particles from aerobically grown TA-R was about one third that found in the parent strain. However, the respiration rates of the intact cells did not differ. Light inhibited the respiration of aerobically grown TA-R, indicating that the bacteriochlorophyll formed under these conditions had photochemical activity. It is concluded that the insensitivity of the mutants to O₂ repression is due to defects in the regulatory system which controls formation of the enzymes concerned in pigment synthesis.     

Variable Ammonia Production Among Smooth and Rough Strains of Pseudomonas pseudomallei: Resemblance to Bacteriocin Production

The colonial morphology of some strains of Pseudomonas pseudomallei was correlated with certain biochemical and physiological traits. After 3 days of growth on Wahba or heart infusion agars, smooth-colony strains generated toxic amounts of ammonia. Under the same conditions, the rough strains simultaneously produced oxalic acid which decreased the inhibitory concentration of ammonia. The ammonia-ammonium concentrations in smooth cultures exhibited certain bacteriocin-like characteristics. An unusually stable, smooth strain (strain 165) was chosen to compare and emphasize any differences with typical, rough strain 7815. Three-day-old smooth cultures grown on Wahba agar containing 3% (w/v) glycerol demonstrated ammonia toxicity. The substitution of glucose for glycerol completely obviated this toxicity. In highly aerated Wahba broth containing glucose, the amount of ammonia found in strain 165 smooth cultures and the amount of oxalic acid found in strain 7815 rough cultures were greatly reduced. In Difco nitrate broth smooth strain 165 did not form gas, and it reduced nitrate to nitrite only. Strain 7815 produced a gas and reduced both nitrate and nitrite.     

The effect of illumination on the pigment composition of the ζ-carotenic mutant,PG1, of Scenedesmus obliquus

Dark grown Scenedesmus obliquus strain PG1 accumulated -carotene and phytoene as its major carotenoids. On illumination of dark-grown cultures in air/CO₂, cyclic carotenes and xanthophylls were formed, apparently at the expense of the accumulated phytoene and -carotene. This interconversion of carotenoids was accompanied by chlorophyll synthesis. In an atmosphere of nitrogen/CO₂ the light-induced changes occurred more slowly and in nitrogen alone the changes were incomplete. No massive production of cyclic carotenes from the accumulated -carotene was observed in cultures illuminated under anaerobic conditions.     

Response to oxygen limitation in bacteria of the genus sulfobacillus

For cultures of moderately thermophilic chemolithotrophic bacteria Sulfobacillus sibiricus N1 and SSO, S. thermosulfidooxidans subsp. asporogenes 41, and the thermotolerant strain S. thermotolerans Kr1 grown under forced aeration and in a high medium layer without aeration, growth characteristics, substrate consumption, and exometabolite formation were compared. Sulfobacilli grown under oxygen limitation exhibited greater generation time, longer growth period, cell yield decreased by from 40 to 85% (depending on the strain), suppressed cell respiration ( demonstrated for S. sibiricus N1 ), accumulation of exometabolites (acetate and propionate) in the medium, and emergence of resting forms. For strains N1, SSO, and Kr1, oscillations of Fe(II) and Fe(III) content in the medium were revealed. For S. sibiricus N1 and S. thermotolerans Kr1, grown under hypoxia (0.07% O₂ in the gas phase), coupling of substrate oxidation with Fe(III) reduction was revealed, as well as utilization of Fe(III) as an electron acceptor alternative to oxygen. The role of labile energy and constructive metabolism for survival of sulfobacilli under diverse conditions is discussed.     

Characterization of an evolved carotenoids hyper-producer of <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> through bioreactor parameter optimization and Raman spectroscopy

An evolutionary engineering approach for enhancing heterologous carotenoids production in an engineered Saccharomyces cerevisiae strain was used previously to isolate several carotenoids hyper-producers from the evolved populations. β-Carotene production was characterized in the parental and one of the evolved carotenoids hyper-producers (SM14) using bench-top bioreactors to assess the impact of pH, aeration, and media composition on β-carotene production levels. The results show that with maintaining a low pH and increasing the carbon-to-nitrogen ratio (C:N) from 8.8 to 50 in standard YNB medium, a higher β-carotene production level at 25.52 ± 2.15 mg β-carotene g^?1 (dry cell weight) in the carotenoids hyper-producer was obtained. The increase in C:N ratio also significantly increased carotenoids production in the parental strain by 298 % [from 5.68 ± 1.24 to 22.58 ± 0.11 mg β-carotene g^?1 (dcw)]. In this study, it was shown that Raman spectroscopy is capable of monitoring β-carotene production in these cultures. Raman spectroscopy is adaptable to large-scale fermentations and can give results in near real-time. Furthermore, we found that Raman spectroscopy was also able to measure the relative lipid compositions and protein content of the parental and SM14 strains at two different C:N ratios in the bioreactor. The Raman analysis showed a higher total fatty acid content in the SM14 compared with the parental strain and that an increased C:N ratio resulted in significant increase in total fatty acid content of both strains. The data suggest a positive correlation between the yield of β-carotene per biomass and total fatty acid content of the cell.     

The physiology of L-methionine catabolism to the secondary metabolite ethylene by Escherichia coli

Catabolism of L-methionine by Escherichia coli strain B SPAO led to the formation of ethylene as a secondary metabolite (ethylenogenesis). Methionine was initially deaminated by a transamination reaction to the 2-oxo acid 2-oxo-4-methylthiobutyric acid (KMBA) which was then converted to ethylene. The utilization of L-methionine as an additional nitrogen source was investigated by examining ethylene synthesis under different nitrogen supply conditions. Ethylene formation in batch culture was unaffected by the concentration of the precursor L-methionine in the medium although increasing concentrations of NH4Cl resulted in progressively less ethylene formation. Cultures grown without L-methionine did not produce ethylene but were able to synthesize ethylene when L-methionine or KMBA was provided. Addition of L-tyrosine to batch cultures reduced the yield of ethylene after 42 h by 54%. Under these conditions the maximum transient level of KMBA was reduced by 32% and occurred later compared to when L-methionine was the only amino acid supplement. Continuous cultures grown under ammonia limitation produced both ethylene and KMBA. In contrast, when glucose was limiting, neither of these metabolites were produced. Cells harvested from continuous cultures grown under glucose or ammonia limitation were able to synthesize ethylene from either L-methionine or KMBA although their capacity for ethylene synthesis (ethylenogenic capacity) was optimal under ammonia limitation (C:N ratio = 20).     

Effect of salinity on the quantity and quality of carotenoids accumulated by Dunaliella salina (strain CONC-007) and Dunaliella bardawil (strain ATCC 30861) Chlorophyta

Dunaliella salina and D. bardawil are well-known microalgae accumulating high levels of beta-carotene under growth-limiting conditions. In both taxa, this pigment is primarily composed of the isomers 9-cis and all-trans. The 9-cis beta-carotene occurs only in natural sources and is the most attractive from a commercial point of view. The conditions that enhance the preferred accumulation of 9-cis beta-carotene in D. salina are controversial and they have not been well established yet. This study examined the effect of salinity on the quantity and quality of total carotenoids and beta-carotene isomers accumulated by D. salina (strain CONC-007) and D. bardawil (strain ATCC 30861) grown in two media with different nutritional compositions (PES and ART) and at salt concentrations of 1M, 2M and 3M NaCl. Total carotenoids were determined by spectrophotometry and beta-carotene isomers, by HPLC. The highest carotenoid contents per cell were obtained at 2M NaCl in both taxa. In both media, an increase of the 9-cis/all-trans beta-carotene ratio was observed in D. bardawil when the salt concentration increased, with a maximum value of 2.6 (in ART medium at 3M NaCl). In D. salina this ratio did not exhibit the same pattern, and the salt concentrations for maximal ratios were different in both media. The highest ratio obtained for this strain was 4.3 (in ART medium at 2M NaCl).     

Heterotrophic bacteria growing in association with Methylococcus capsulatus (Bath) in a single cell protein production process

The methanotrophic bacterium Methylococcus capsulatus (Bath) grows on pure methane. However, in a single cell protein production process using natural gas as methane source, a bacterial consortium is necessary to support growth over longer periods in continuous cultures. In different bioreactors of Norferm Danmark A/S, three bacteria consistently invaded M. capsulatus cultures growing under semi-sterile conditions in continuous culture. These bacteria have now been identified as a not yet described member of the Aneurinibacillus group, a Brevibacillus agri strain, and an acetate-oxidiser of the genus Ralstonia. The physiological roles of these bacteria in the bioreactor culture growing on natural, non-pure methane gas are discussed. The heterotrophic bacteria do not have the genetic capability to produce either the haemolytic enterotoxin complex HBL or non-haemolytic enterotoxin.     

Dual role for tomato heat shock protein 21: protecting photosystem II from oxidative stress and promoting color changes during fruit maturation

The tomato (Lycopersicon esculentum) chloroplast small heat shock protein (sHSP), HSP21, is induced by heat treatment in leaves, but also under normal growth conditions in developing fruits during the transition of chloroplasts to chromoplasts. We used transgenic tomato plants constitutively expressing HSP21 to study the role of the protein under stress conditions and during fruit maturation. Although we did not find any effect for the transgene on photosystem II (PSII) thermotolerance, our results show that the protein protects PSII from temperature-dependent oxidative stress. In addition, we found direct evidence of the protein's role in fruit reddening and the conversion of chloroplasts to chromoplasts. When plants were grown under normal growth temperature, transgenic fruits accumulated carotenoids earlier than controls. Furthermore, when detached mature green fruits were stored for 2 weeks at 2 degrees C and then transferred to room temperature, the natural accumulation of carotenoids was blocked. In a previous study, we showed that preheat treatment, which induces HSP21, allowed fruit color change at room temperature, after a cold treatment. Here, we show that mature green transgenic fruits constitutively expressing HSP21 do not require the heat treatment to maintain the ability to accumulate carotenoids after cold storage. This study demonstrates that a sHSP plays a role in plant development under normal growth conditions, in addition to its protective effect under stress conditions.     

Increase in the production of allelopathic substances by Prymnesium parvum cells grown under N- or P-deficient conditions

The haptophyte Prymnesium parvum is known to produce a set of highly potent exotoxins, commonly called prymnesins. These toxins have been shown to have several biological activities, including ichthyotoxic, neurotoxic, cytotoxic, hepatotoxic and hemolytic activity towards a range of marine organisms. In addition, recent studies have shown that the toxicity of P. parvum is enhanced when the cells are grown under N- or P-deficient conditions. In this study, the influence of prymnesium toxins on the growth of other phytoplankton species was investigated by addition of cell-free filtrate of P. parvum cultures grown under nutrient-deficient (N or P) or non-deficient conditions. Addition of cell-free filtrate from P. parvum cultures grown under N or P limitation inhibited the growth of Thalassiosira weissflogii, Prorocentrum minimum and Rhodomonas cf. baltica. In contrast, a strain of Prymnesium patelliferum known to produce prymnesium toxins was not negatively affected under any conditions. Furthermore, addition of filtrates from nutrient-sufficient P. parvum cultures did not negatively influence the growth of any of the tested species. These findings suggest that prymnesium toxins may play an allelopathic role, and that the production of allelopathic substances is regulated by the availability of nutrients.     

蓝光光照对蛹虫草子实体生长和主要活性成分的影响

光作为一种重要的环境因子,可影响真菌的生长发育、生理周期、形态变化及次级代谢产物的产生,对于蛹虫草而言,光照还是其子实体生长发育的必要条件。选择2株不同来源的蛹虫草菌株,研究了自然光照和蓝光光照条件下,其子实体生长、抗氧化酶活性和主要活性成分的变化。结果表明蓝光光照对于蛹虫草子实体产量没有明显的促进和抑制作用。自然光照条件下成熟子实体的超氧化物歧化酶(superoxide dismutase,SOD)活性显著高于蓝光光照,过氧化氢酶(catalase,CAT)活性没有明显差别,而过氧化物酶(peroxidase,POD)活性则表现出菌株差异。子实体主要活性成分方面,腺苷、甘露醇含量不受蓝光影响,类胡萝卜素在蓝光光照条件下含量极显著高于自然光光照,蓝光对子实体、虫草素、粗多糖含量的影响则存在菌株差异。研究为蛹虫草子实体的栽培条件优化,提高蛹虫草子实体质量提供依据。     

Characterization of 2,3-dihydroxybenzoic acid from Nocardia asteroides GUH-2.

Culture filtrates of virulent Nocardia asteroides GUH-2 after growth in acetate minimal medium displayed an absorbance maximum at 320 nm. After isolation by polyamide extraction and anion chromatography, a UV-active compound with this absorbance was shown to be 2,3-dihydroxybenzoic acid (DHB) by nuclear magnetic resonance, gas chromatographic, and mass spectrometric techniques. DHB production under several culture conditions was quantified by a standard high-pressure liquid chromatography assay. Under iron deficiency conditions, N. asteroides GUH-2 excreted up to 11 mg of DHB per liter into the culture medium. No DHB was detected when N. asteroides GUH-2 was grown in an iron-rich medium. With the less virulent strain N. asteroides 10905, DHB was not found under any condition tested.     

Arrangement of nitrogenase structural genes in an aerobic filamentous nonheterocystous cyanobacterium.

Members of the marine filamentous, nonheterocystous cyanobacterial genus Trichodesmium not only are capable of fixing nitrogen aerobically in the light but when grown under a light-dark cycle will fix nitrogen only during the light phase. In this study, we constructed a restriction map of the structural nitrogen fixation genes (nifHDK) in Trichodesmium sp. strain NIBB 1067. We found that the organization of the nif genes in Trichodesmium sp. strain NIBB 1067 is contiguous, as found in other nonheterocystous cyanobacteria and in heterocysts. Furthermore, the nif gene arrangement was identical when the cultures were grown with combined nitrogen or under nitrogen-fixing conditions. Therefore, no gene rearrangements occur, such as those that occur during the development of heterocysts in heterocystous species.     

Stress-induced changes in pigment and fatty acid content in the microalga Desmodesmus sp. Isolated from a White Sea hydroid

Effects of light intensity, nitrogen availability, and inoculum density on growth and the content of esterified fatty acids (FA), chlorophylls, and carotenoids in Desmodesmus sp. 3Dp86E-1 chlorophyte alga isolated from the White Sea hydroid Dynamena pumila L. were investigated. The growth of algae in the complete BG-11 medium was not limited by irradiances up to 480 μE/(m² s) PAR but depended on the inoculum density. Under nitrogen starvation conditions, high-intensity light retarded growth of the microalga; this effect was less pronounced in the cultures initiated at high inoculum densities. The highest FA percentage in biomass (30% at the 3rd day of cultivation) was detected in nitrogen-starving cultures grown under high light conditions; however, the highest volumetric FA content (0.25 g/L) was attained on a complete medium at 480 μE/(m² s). An increase in the content of oleic acid (18:1) on the background of a decrease in linolenic acid (18:3) was characteristic of the microalga under stress conditions. The microalga was found to be non-carotenogenic. Nitrogen starvation brought about a dramatic decrease in chlorophyll content on the background of relatively constant carotenoid content. On nitrogen-deplete medium, the high light did not trigger the adaptive response of the pigment apparatus. The changes in absorption spectra of Desmodesmus sp. 3Dp86E-1 cell suspensions reflected the increase in relative contribution of carotenoids to light absorption by the microalgal cells; these changes were tightly related with FA accumulation. The mechanisms of acclimation of Desmodesmus sp. 3Dp86E-1 to high light and nitrogen starvation are discussed in view of possible biotechnological applications of this alga.     

Influence of UV-B irradiation on the carotenoid content of Vitis vinifera tissues

The carotenoid content was examined in leaf and berry tissues of grapevines (cv. Cabernet Sauvignon) grown either under ambient conditions or under a polyester film to reduce UV light by 98%. Total carotenoids in leaves were less in vines grown under the UV screen. Levels of beta-carotene decreased with berry development around veraison. This effect was more pronounced in vines grown under reduced UV light. The lutein content of berries appeared to remain relatively constant with berry development, but levels were decreased under the UV screen. These observations are important for the wine industry because of the biosynthetic link between carotenoids and wine flavour and aroma compounds.     

Snow algae from northwest Svalbard: their identification, distribution, pigment and nutrient content

We mapped coloured snow during the summers of 1995 and 1996 at about 60 localities in the coastal region of northwest Spitsbergen. The colour was mainly induced by snow algae (Chlamydomonas spp. and Chloromonas spp.). In the late summer of 1996, snow algal fields of several hundred meters in size were observed along the west and north coasts. They had no preferred geographical orientation. We studied the abundance of primary pigments and secondary carotenoids from different developmental stages of the snow algae of Chlamydomonas spp. under natural conditions. Extensive accumulation of astaxanthin and its esters accompanied the transition from green biflagellated cells to orange spores, hypnozygotes and dark-red cysts. The photoprotective effect of the secondary carotenoids is enhanced by concentration in cytoplasmic lipid droplets around the nucleus and chloroplast. The nutrient content of melt-water and snow algae had no direct correlation with the content of secondary carotenoids. Relatively high Fe, Ca, P, K and Al contents of snow algae were found, suggesting a good supply of these mineral elements. Received: 20 May 1997 / Accepted: 18 March 1998