Culture of the astaxanthin-producing green algaHaematococcus pluvialis 1. Effects of nutrients on growth and cell type

The freshwater green algaHaematococcus pluvialis (Strain Vischer 1923/2) grows best at high nitrate concentrations (about 0.5 to 1.0 g 1^–1 KNO₃), intermediate phosphate concentration (about 0.1 g 1^–1 K₂HPO₄) and over a wide range of Fe concentrations. Low nitrate or high phosphate induce the formation of reddish palmella cells and aplanospores. Mixotrophic growth with acetate improves growth rate and final cell yield, and also stimulates the formation of the astaxanthin-containing palmella cells and aplanospores.H. pluvialis cannot grow above about 28 °C, or above a salinity of approximately 1% w/v NaCl. An increase in temperature or the addition of NaCl also stimulates the formation of palmella cells and aplanospores.     

Medium optimization for glucoamylase production by a yeast,Pichia subpelliculosa ABWF-64, in submerged cultivation

An amylolytic yeast strain Pichia subpelliculosawas shown to produce glucoamylase in submerged cultivation. The yeast strain produced the enzyme optimally at 30 °C and pH 5.6 in shake flasks agitated at 200 rev min^–1 in the optimized glucoamylase production medium containing 1% starch, 0.2% yeast extract, 0.4% K₂HPO₄, 0.035% NaCl and 0.1% MgCl₂. Maximum enzyme production was attained during early growth of 11 h in shake flasks, and 6 h in a laboratory fermenter. By optimizing media components and cultivation parameters, a 15-fold increase in glucoamylase secretion was achieved.     

A model for the regulation of brain adenylate cyclase by ionic equilibria

Multiple-equilibrium equations were solved to investigate the individual and separate effects of Mg²⁺, Mn²⁺, Ca²⁺, ATP^4–, and their complexes on the kinetics of brain adenylate cyclase. The effects of divalent metals and/or ATP^4– (in excess of their participation in complex formation) were determined and, from the corresponding apparent affinity values, the following kinetic constants were obtained:K _m(MgATP)=1.0 mM,K _i(ATP^4–)=0.27 mM,K _m(MnATP)=0.07 mM, andK _i(CaATP)=0.015 mM. MgATP, MnATP, ATP^4–, and CaATP were shown to compete for the active site of the enzyme. Hence, it is proposed that endogenous metabolites with a strong ligand activity for divalent metals, such as citrate and some amino acids, become integrated into a metabolite feedback control of the enzyme through the release of ATP^4– from MgATP. Ca²⁺ fluxes may participate in the endogenous regulation of adenylate cyclase by modifying the level of CaATP. The free divalent metals show an order of affinityK _0.5(Ca²⁺)=0.02 mM,K _0.5(Mn²⁺)=3.8 mM,K _0.5(Mg²⁺)=4.7 mM, and an order of activity Mn²⁺>Mg²⁺>Ca²⁺. The data indicate that Mn²⁺ and Mg²⁺ ions may compete for a regulatory site distinct from the active site and increaseV _m without changingK _m(MgATP),K _m(MnATP), orK _i(ATP^4–). The interactions of ATP^4– and CaATP, which act as competitive inhibitors of the reaction of the enzyme with the substrates MgATP and MnATP, and Mg²⁺ and Mn²⁺, which act as activators of the enzyme in the absence of hormones, are shown to follow the random rapid equilibrium BiBi group-transfer mechanism of Cleland with the stipulation that neither Mg²⁺ nor Mn²⁺, in excess of their respective participation in substrate formation, are obligatorily required for basal activity. ATP^4– and CaATP are involved in dead-end inhibition. For MgCl₂ saturation curves at constant total ATP concentration, the computer-generated curves based on the RARE BiBi model predict a change in the Hill cooperativityh from a basal value of 2.6, when Mg²⁺ is not obligatorily required, to 4.0 when the addition of hormones or neurotransmitters induces an obligatory requirement for Mg²⁺.Abbreviations used: Me, divalent metal; Me_T (Mg_T or Mn_T), total Me (Me²⁺ and its complexes); ATP_T, total ATP (ATP^4– and its complexes).     

Quantitation of plasmid DNA in aqueous two-phase systems by fluorescence analysis

The development of aqueous two-phase systems for plasmid purification from Escherichia coli cell lysates requires a reliable DNA quantitation method. Plasmid DNA was quantified by fluorescence using PicoGreen nucleic acid stain. Linearity was obtained up to 40 ng plasmid ml^–1. Two polyethyleneglycol (PEG)/salt systems were studied, PEG 600/K₂HPO₄ and PEG 300/K₂HPO₄. The average plasmid recovery was 41% in the bottom phase of the first system and 35% in the top phase of the second system. This method has proved to be simple and reproducible.     

Cyclic 2,3-diphosphoglycerate metabolism in Methanobacterium thermoautotrophicum (strain ΔH): characterization of the synthetase reaction

The levels of cyclic 2,3-diphosphoglycerate (cDPG) in methanogenic bacteria are governed by the antagonistic activities of cDPG synthetase and cDPG hydrolase. In this paper we focus on the synthetase from Methanobacterium thermoautotrophicum. The cytoplasmic 150 kDa enzyme catalyzed cDPG synthesis from 2,3-diphosphoglycerate (apparent K_m=21 mM), Mg²⁺ (K_m=3.1 mM) and ATP (K_m=1–2 mM). In batch-fed cultures, the enzyme was constitutively present (6–6.5 nmol per min per mg protein) during the different growth phases. In continuous cultures, activity decreased in response to phosphate limitation. The synthetase reaction proceeded with maximal rate at pH 6 and at 65° C and was specifically dependent on high (>0.3M) K⁺ concentrations. The reaction conditions remarkably contrasted to those of cDPG degradation catalyzed by the previously described membrane-bound cDPG hydrolase.Abbreviations cDPG Cyclic 2,3-diphosphoglycerate - 2,3-DPG 2,3-Diphosphoglycerate - 2-PG 2-Phosphoglycerate - 3-PG 3-Phosphoglycerate     

Nutrition and factors limiting the growth of a methanogenic bacterium (Methanobacterium thermoautotrophicum)

The purification of Methanobacterium thermoautotrophicum from a culture contaminated with a heterotrophic organism is described. A defined inorganic medium under H₂/CO₂ (80:20 v/v) has been developed to support growth of M. thermoautotrophicum up to a concentration of at least 1.7 g dry weight/l. In a conventional medium iron and nitrogen sources were found to be growth-limiting factors. Throughout most of the culture period the rate of transfer of hydrogen or carbon dioxide from gas to liquid was the factor which controlled the growth rate.The growth yields of bacteria were in the range 0.6–1.6 g dry weight/mole CH₄.Abbreviation TGP thioglycollate peptone medium     

ε-Caprolactam-degradation by Alcaligenes faecalis for bioremediation of wastewater of a nylon-6 production plant

Alcaligenes faecalis G utilized 95–97% of 5–15 g -caprolactam l^–1 in 24–48 h over a pH range of 6–8.5 and at 23–40 °C, without complex nutrient requirement. In the absence of KH₂PO₄ and K₂HPO₄/MgSO₄ in the medium, only 7.6% and 0.2% of 10 g caprolactam l^–1 was utilized, respectively. The chemical oxygen demand (COD) of the wastewater of nylon-6 plant was mainly due to its caprolactam content. A. faecalis G decreased the caprolactam content and COD of the wastewater by 80–90% of the original in spite of the wastewater having higher caprolactam content (3600 mg l^–1) and COD (7700 mg l^–1) than those of any of the previous reports.     

Influence of culture parameters on lignin metabolism byPhanerochaete chrysosporium

Culture parameters influencing metabolism of synthetic¹⁴C-lignins to¹⁴CO₂ in defined media have been studied in shallow batch cultures of the ligninolytic wood-destroying HymenomycetePhanerochaete chrysosporium Burds. Study of the effect of O₂ concentration in the gas phase above non-agitated cultures indicated essentially complete absence of attack on the lignin polymer at 5% O₂ in N₂, and a 2- to 3-fold enhancement by 100% O₂ as compared to air (21% O₂). Agitation of the cultures resulting in the formation of mycelial pellets greatly suppressed lignin decomposition. The optimum culture pH for lignin decomposition was 4 to 4.5, with marked suppression above 5.5 and below 3.5. The source of nutrient nitrogen (NO ₃ ^– , NH ₄ ⁺ , amino acids) had little influence on lignin decomposition, but the concentration of nitrogen was critical; decomposition at 24 mM was only 25–35% of that at 2.4 mM N. Thiamine was the only vitamin required for growth and lignin decomposition. Under the optimum conditions developed, decomposition of 5 mg of synthetic lignin was accompanied by utilization of approximately 100 mg of glucose. The influence of the various culture parameters was analogous for metabolism of synthetic lignin labeled in the ring-,side chain-, and methoxyl carbon atoms.     

Optimization of manganese peroxidase and laccase production in the South American fungus<Emphasis Type="Italic"> Fomes sclerodermeus</Emphasis> (Lév.) Cke

Fomes sclerodermeus produces manganese peroxidase (MnP) and laccase as part of its ligninolytic system. A Doehlert experimental design was applied in order to find the optimum conditions for MnP and laccase production. The factors studied were Cu²⁺, Mn²⁺ and asparagine. The present model and data analysis allowed us not only to define optimal media for production of both laccase and MnP, but also to show the combined effects between the factors. MnP was strongly influenced by Mn²⁺, which acts as an inducer. Under these conditions Cu²⁺ negatively affected MnP activity. At 13 days of growth 0.75 U ml^–1 were produced in the optimized culture medium supplemented with 1 mM MnSO₄ and 4 g l^–1 asparagine. The laccase titer under optimized conditions reached maximum values at 16 days of growth: 13.5 U ml^–1 in the presence of 0.2 mM CuSO₄, 0.4 mM MnSO₄ and 6 g l^–1 asparagine. Mn²⁺ promoted production of both enzymes. There were important interactions among the nutrients evaluated, the most significant being those between Cu²⁺ and asparagine.     

Sequential liquid-liquid extraction of d-amino acid oxidase from Trigonopsis variabilis

A method for isolation of d-amino acid oxidase (DAAO) from disrupted Trigonopsis variabilis cells has been developed. In an aqueous two-phase system consisting of PEG6000 (220 g l^–1), potassium phosphate (110 g l^–1, K₂HPO₄ + KH₂PO₄ = 10.1:1, mol mol^–1) and dl-methionine (11 g l^–1), the major portion of cellular proteins (87%) was partitioned into the salt phase. By sequential extraction, 48% of DAAO was recovered in PEG phase, giving a yield of 211 U mg protein^–1.     

Effect of pyridine homologues on the basal rate of electron transport and H+/e − ratio in chloroplasts

Low concentrations of hydrophobic pyridine homologues (1 mM) were found to increase the rate of the Hill reaction in chloroplasts without significantly affecting either the steady-state proton uptake or the rate of proton leakage in the dark. By assuming that the organic base can be bound to two types of independent binding sites in the thylakoid membrane with dissociation constantsK ₁ andK ₂ respectively, the kinetic data can be treated quantitatively. The values ofK ₁ andK ₂ determined by the treatment are in the same relative order as the hydrophobicities of the pyridine homologues:K ₁=1.16 mM andK ₂=54 mM for pyridine; 0.6 and 38 mM for 4-picoline; 0.27 and 31 mM for 4-ethylpyridine, 0.10 and 4.2 mM for 4-t-butylpyridine; 0.08 and 3.2 mM for 4-n-butylpyridine. The rates of oxygen generation and proton uptake by illuminated chloroplasts with either ferricyanide or 1,4-benzoquinone as the electron acceptor were also measured in the presence of various pyridine homologues. Low concentration of pyridine homologues were found to decrease the H⁺/e ^– ratio. This last observation seems to substantiate an indirect coupling mechanism between electron transport and proton translocation.Abbreviations Chl chlorophyll - CF₀ - CF₁ the coupling factor complex of chloroplast - FCCP carbonylcyanide-p-trifluoromethoxyphenylhydrazone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - Tricine N-tris-(hydroxymethyl)methylglycine     

Cyclic AMP-dependent regulation of activities of synthetase and phosphodiesterase of 2′,5′-oligoadenylate in NIH 3T3 cells

Summary Dihydrofolate synthetase (EC 6.3.2.12) from N. gonorrhoeae was isolated and enzyme characteristics were determined. The purified enzyme was found quite stable when stored at –60 °C. About 50% of the enzyme activity wag destroyed within 6 weeks when kept at 4 °C. Maximum velocity was observed at pH 9.3. The enzyme required a monovalent cation, K⁺ or NH₄ ⁺ , and divalent cation, Mg²⁺ or Mn²⁺ for its function. ATP at 5 mM concentration gave maximum activity. K_m values for dihydropteroate and L-glutamate at pH 9.3 were 3.5 × 10^–5 M and 6.5 × 10^–4 M, respectively. Patterns of product inhibition by dihydrofolate were found to be non-competitive with respect to dihydropteroate, having a K_i value of 5.1 ± 0.8 × 10^–4 M, and competitive with respect to L-glutamate, having a K_i value of 6.2 × 10^–4 M.     

Adaptation of Chinese hamster ovary cells to high potassium ion-containing medium for enhancement of follicle-stimulating hormone production

In this study, a suspension culture of recombinant Chinese hamster ovary (CHO) cells producing follicle-stimulating hormone (FSH) was used to investigate the effects of potassium ion (K⁺) on cell growth and FSH production. Cell growth was significantly suppressed at a K⁺ concentration higher than 60 mM, but specific FSH productivity (q _FSH) was enhanced more than 2-fold compared to the value obtained at 4 mM K⁺. In an attempt to alleviate the cell growth suppression at a high K⁺ concentration, the cells were adapted at 60 mM K⁺ in a repeated batch mode. During adaptation, the growth rate increased from 0.010 to 0.020 h⁻¹, andq _FSH also gradually increased and reached 11.1 ng/(10⁶ cells h), which was even higher than that of the unadapted cells at 60 mM K⁺. The adapted cells showed a 2.6-fold increase in maximum FSH titer at 80 mM K⁺ compared to the unadapted cells at 4 mM K⁺. Taken together, these results demonstrate the potential of using culture media containing cells adapted to high K⁺ concentrations, for the enhancement of recombinant protein production.     

Production and purification of a calcium-dependent protease from Bacillus cereus BG1

The production and purification of a calcium-dependent protease by Bacillus cereus BG1 were studied. The production of the protease was found to depend specifically on the calcium concentration in the culture medium. This suggests that this metal ion is essential for the induction of protease production and/or stabilisation of the enzyme after synthesis. The calcium requirement is highly specific since other metal ions (such as Mg²⁺ and Ba²⁺, which both activate the enzyme) are not able to induce protease production. The most appropriate medium for growth and protease production comprises (g L^–1) starch 5, CaCl₂ 2, yeast extract 2, K₂HPO₄ 0.2 and KH₂PO₄ 0.2. The protease of BG1 strain was purified to homogeneity by ultrafiltration, heat treatment, gel filtration on Sephacryl S-200, ion exchange chromatography on DEAE-cellulose and, finally, a second gel filtration on Sephacryl S-200, with a 39-fold increase in specific activity and 23% recovery. The molecular weight was estimated to be 34 kDa on SDS-PAGE. The optimum temperature and pH of the purified enzyme were determined to be 60°C and 8.0, respectively, in 100 mM Tris-HCl buffer + 2 mM CaCl₂.     

Characteristics of the Vegetative Growth of Bacillus popilliae

Growth characteristics of the insect pathogen, Bacillus popilliae Dutky, were studied by propagation in shaken flasks and in 2-liter fermentors. Maximal populations between 5 × 10⁸ and 2 × 10⁹ viable cells per milliliter of culture medium routinely were obtained in incubation periods of 18 to 24 hr at 30 C in a medium composed of 1.5% yeast extract, 0.6% K₂HPO₄, and 0.2% glucose or trehalose. The carbohydrate required for growth in liquid media was fermented with the formation of 2 meq of acid per mmole of carbohydrate utilized; acid products ordinarily were not subsequently metabolized. B. popilliae is an aerobe, and the amount of growth obtained varied with aeration to an optimum at oxygen absorption rates of about 0.5. Maximal populations persist in a culture for periods of only 1 to 4 hr; cessation of growth was followed immediately by rapid death of cultures, so that less than 1% of the cells remained viable after 48 hr, and viability often was lost entirely by the end of 72 hr of incubation. No cytological evidence for spore formation was observed under any growth condition. Death was not associated with lysis of the cells, although extensive granulation ultimately occurred. Continuous neutralizaiton, augmented buffering, various techniques of dialysis, or slow feeding of the carbohydrate did not markedly alleviate the characteristic death of the cultures.     

Effect of light intensity and ammonium-N on carotenogenesis ofTrentepohlia odorata andDunaliella bardawil

AxenicTrentepohlia odorata was cultured at three different NH₄Cl levels (3.5 × 10^–2, 3.5 × 10^–3, 3.5 × 10^–4 M) and three different light intensities (48, 76, 122 µmol m^–2 s^–1). Chloride had no effect on growth over this range of concentration. High light intensity and high NH₄Cl concentration enhanced the specific growth rate. The carotenoid content increased under a combination of high light intensity and low N concentration. WhenD. bardawil was exposed to the same combination of growth conditions, there was an increase in its carotenoid content. The light saturation and the light inhibition constants (K _s andK _i, respectively) for growth, and the saturation constant (K _m) for NH₄Cl were determined. TheK _s andK _i values were higher inT. odorata (66.7 and> 122 mol m^–2 s^–1, respectively) than inD. bardawil (5.1 and 14.7 µmol m^–2 s^–1, respectively). TheK _m value determined at 122 µmol m^–2 s^–1, however, was lower inT. odorata (0.048 µM) than inD. bardawil (0.062 µM).Author for correspondence     

Role of external calcium in sodium and chloride transport in the gills of seawater-adaptedMugil capito

Summary When the mulletMugil capito is transferred to medium lacking Ca⁺⁺ (either Ca⁺⁺-free seawater or distilled water) the passive permeability of the gill to Na⁺ and Cl^– is increased and the activating effect of external K⁺ on the Na⁺ and Cl^– effluxes in hyposaline media is inhibited. The permeability of the gill increases progressively in proportion to the time of Ca⁺⁺ deprivation; it declines when Ca⁺⁺ is added again to the external medium. The active mechanisms for ion excretion are not reversible. At external Ca⁺⁺ concentrations from 0.1 to 10 mM the Na⁺ permeability is constant but the activation of Na⁺ efflux by K⁺ shows a maximum at a Ca⁺⁺ concentration of about 1 mM. For activation of Cl^– efflux external bicarbonate must be present, in addition to Ca⁺⁺, suggesting the existence of a Cl^–/HCO ₃ ^– exchange. The mechanism by which Ca⁺⁺ controls the passive branchial permeability is thus probably different from that involved in K⁺ activation of ion excretion. The Ca⁺⁺ effect on the K⁺ sensitive ionic excretory mechanisms seems to be related to intracellular Ca⁺⁺ movements. Thus, on the one hand, substances such as Ruthenium Red and La⁺⁺⁺ which both inhibit Ca⁺⁺ exchange, in media containing Ca⁺⁺ and HCO ₃ ^– also inhibit K⁺ activation of Na⁺ and Cl^– effluxes; on the other hand, the ionophore A 23187, a stimulator of Ca⁺⁺ exchange, when added to these media, activates the Na⁺ and Cl^– effluxes; its maximal effect on the Na⁺ flux occurs at 2 mM Ca⁺⁺.Abbreviations ASW-Ca artificial seawater minus calcium - DW deionised water - DWCa deionised water with 1 mM Ca⁺⁺ added - DWCaHCO ₃ DW with calcium plus bicarbonate - DWHCO ₃ DW with 1 mM sodium bicarbonate added - FW freshwater (tap water) - FWK freshwater with K⁺ added - P. D. potential difference - SW seawater The experiments reported in this paper were done with Jean Maetz who tragically died in August 1977. It is the last report about several years of friendly collaboration     

Phosphite accelerates programmed cell death in phosphate-starved oilseed rape (<Emphasis Type="Italic">Brassica napus</Emphasis>) suspension cell cultures

Phosphite (H₂PO₃^–, Phi) prevents the acclimation of plants and yeast to orthophosphate (Pi, HPO₄^2–) deprivation by specifically obstructing the derepression of genes encoding proteins characteristic of their Pi-starvation response. In this study, we report that prolonged (i.e., 3–4 weeks) culture of Brassica napus L. suspension cells in Pi-deficient (–Pi) media leads to programmed cell death (PCD). However, when the B. napus cells were subcultured into –Pi media containing 2 mM Phi, they initiated PCD within 5 days, with 95% cell death observed by day 9. Dying cells exhibited several morphological and biochemical features characteristic of PCD, including protoplast shrinkage, chromatin condensation, and fragmentation of nuclear DNA. Immunoblotting indicated that B. napus cells undergoing PCD upregulated a 30-kDa cysteine endoprotease that is induced during PCD in the inner integument cells of developing B. napus seeds. It is concluded that PCD in B. napus suspension cells is triggered by extended Pi starvation, and that Phi treatment greatly accelerates this process. Our results also infer that the adaptive value of acclimating at the molecular level to Pi-stress is to extend the viability of –Pi B. napus cell cultures by about 3 weeks.Abbreviations APase acid phosphatase (EC 3.1.3.2) - BnCysP B. napus cysteine proteinase - DAPI 4,6-diamidino-2-phenylindole - FDA fluorescein diacetate - PCD programmed cell death - Phi phosphite - +Pi and –Pi Pi-sufficient and -deficient, respectively - PI propidium iodide - PSI Pi-starvation inducible     

Growth and nutrition of a strain of Gymnoascus reessii in shaken flasks

Summary The fundamental nutritional requirements of one strain ofGymnoascus reessii were established. Growth was measured on a dry weight basis. The optimum medium for growth consisted of 5% maltose, 2% KNO₃, 0.2% K₂HPO₄, 0.2% MgSO₄.7H₂O, 1 mg% adenine, 1 mg% uracil, 1 mg% guanine, 5 mg% xanthine, 0.8 mg% biotin and 0.2 mg% pyridoxine. An initial Ph range of 5.0–8.0 was found to permit optimum growth.

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Zusammenfassung Die Grunderfordernisse der Ernährung eines Stammes vonGymnoascus reessii sind festgestellt worden. Das Wachstum war an der trockenen Gewichtsgrundlage gemessen. Der optimale Nährboden für das Wachstum bestand in 5% Maltose, 2% KNO₃, 0.2% K₂HPO₄, 0.2% MgSO₄. 7HO₂, 1 mg% Adenine, 1 mg% Uracil, 1 mg% Guanine, 5 mg% Xanthine, 0.8 mg% Biotin und 0.2 mg% Pyridoxine. Eine Anfangsbreite der Ph von 5.0–8.0 erlaubte ein optimales Wachstum.

     

Growth kinetics and nitrogenase induction inFrankia sp. HFPArI 3 grown in batch culture

Summary Kinetics of growth and nitrogenase induction inFrankia sp. Ar13 were studied in batch culture. Growth on defined medium with NH ₄ ⁺ as the N source displayed typical batch culture kinetics; however, a short stationary phase was followed by autolysis. Removal of NH ₄ ⁺ arrested growth and initiated vesicle differentiation. Vesicle numbers increased linearly and were paralleled by a rise in nitrogenase (acetylene reduction) activity. Nitrogenase activity (10 nM C₂H₄·mg protein^–1·min^–1) was sufficient to support growth on N₂ and protein levels rose in parallel with nitrogenase induction. Optimal conditions for vesicle and nitrogenase induction were investigated. Maximum rates of acetylene reduction were obtained with 5 to 10 mM K₂ HPO₄/KH₂PO₄, 0.1 mM CaCl₂ and MgSO₄. The optimum pH for acetylene reduction and respiration was around 6.7. The amount (5 to 10 g protein/ml) and stage (exponential) of growth of the ammonium-grown inoculum strongly influenced the subsequent development of nitrogenase activity. Propionate was the most effective carbon source tested for nitrogenase induction. Respiration in propionate-grown cells was stimulated by CO₂ and biotin, suggesting that propionate is metabolized via the propionyl CoA pathway.