Entamoeba histolytica: Nucleic acid precursors affecting axenic growth

Treatment of Panmede and Trypticase, in water, with activated carbon and subsequently combining the filtered solution with glucose, cysteine, salts, serum and vitamins results in a medium depleted in the nucleic acid precursors required to sustain a high level of growth of axenic Entamoeba histolytica. Additions to the depleted medium which stimulated sustained growth, were the following, in the order of increasing efficacy: adenosine, adenine, AMP, AMP + GMP, AMP + GMP + UMP + CMP, or yeast ribonucleic acid. The last three additions restored growth to the level of cultures in TP-S-1 medium. No stimulation of sustained growth was found with GMP, IMP, UMP, or CMP, singly.     

Entamoeba histolytica and Giardia lamblia: effects of cysteine and oxygen tension on trophozoite attachment to glass and survival in culture media

Attachment of Entamoeba histolytica and of Giardia lamblia trophozoites to glass was monitored during the culture cycle. Attachment of each parasite was greatest during the exponential phase of axenic growth. The effects of l-cysteine upon the kinetics of attachment of trophozoites to glass were determined quantitatively. Attachment in complex growth media required cysteine, even under N₂, atmosphere. With cysteine, the rates of attachment were greatest for the first 2 hr, then continued more slowly. The numbers of attached trophozoites decreased immediately upon exposure to medium without cysteine. The role of cysteine in protecting trophozoites of both species from the lethal effects of oxygen was assessed using clonal growth in agar or agarose medium to determine viability following exposure to varying oxygen tensions in liquid medium. Cysteine was required for viability of trophozoites. Without cysteine, decreasing the oxygen tension prolonged survival. Under increased oxygen tension, cysteine delayed the onset of exponential killing. Although it has no thiol reducing group, l-cystine similarly protected E. histolytica.     

Entamoeba histolytica and Entamoeba invadens: Effects of temperature and oxygen tension on growth and survival

The temperature ranges for axenic growth of Entamoeba histolytica strain HM-1 and Entamoeba invadens strain 165 clone II in TYI-S-33 medium were: 32 to 40 C for E. histolytica with an optimum of 35.5 to 37 C; whereas the range for E. invadens 165 II was 20 to 30 C, optimum 24 to 27 C. Growth of strain HM-1 at 40 C was dependent upon the cell density of the culture used as a source of the inoculum. Clonal growth in agar was used to assay survival of Entamoeba spp. trophozoites after exposure to deleterious physical conditions. The lowest temperature for thermal killing of E. histolytica HM-1 was 41.5 C and for E. invadens 165, 35.5 C. Both were killed rapidly at 42 C, but slowly at 0 C. Killing of E. histolytica HM-1 trophozoites by exposure to increased oxygen tensions was a function of temperature and time. At 24 C and 35.5 C, there was little loss of viability during the first 7 hr exposure, then killing was quite rapid. The cells were killed sooner if the medium was preexposed to air. In contrast, at 0 C there was less killing by oxygen. E. invadens 165 II appeared to be more oxygen sensitive at 24 than at 0 C. Other E. histolytica strains tested were similar to HM-1 in their responses to temperature and air.     

Axenization and optimization of in vitro growth of clonal cultures of Tetratrichomonas gallinarum and Trichomonas gallinae

A rapid and simple procedure was established to obtain clonal axenic cultures of Tetratrichomonas gallinarum and Trichomonas gallinae and to optimize their in vitro growth conditions. Medium 199 was used for axenization of two genetically different clones of T. gallinarum and T. gallinae. Six different media were used to optimize the growth behaviour of axenically grown parasites: Medium 199, TYM, TYI-S-33, Hollander fluid (HF), Trichomonas vaginalis (TV) and modified TV media. The highest cell yields for both axenic clones of T. gallinarum were obtained in modified TV medium without antibiotics. The maximum numbers of trophozoites of T. gallinae were obtained in an optimized HF medium. This study demonstrated that axenic cultures for T. gallinarum and T. gallinae could be obtained avoiding the migration technique through a V-tube. Following axenization and optimization, both clones of T. gallinarum and T. gallinae could be propagated both aerobically and anaerobically.     

Metabolic control of the membrane fluidity in Bacillus subtilis during cold adaptation

Membrane fluidity adaptation to the low growth temperature in Bacillus subtilis involves two distinct mechanisms: (1) long-term adaptation accomplished by increasing the ratio of anteiso- to iso-branched fatty acids and (2) rapid desaturation of fatty acid chains in existing phospholipids by induction of fatty acid desaturase after cold shock. In this work we studied the effect of medium composition on cold adaptation of membrane fluidity. Bacillus subtilis was cultivated at optimum (40 °C) and low (20 °C) temperatures in complex medium with glucose or in mineral medium with either glucose or glycerol. Cold adaptation was characterized by fatty acid analysis and by measuring the midpoint of phospholipid phase transition T_m (differential scanning calorimetry) and membrane fluidity (DPH fluorescence polarization). Cells cultured and measured at 40 °C displayed the same membrane fluidity in all three media despite a markedly different fatty acid composition. The T_m was surprisingly the highest in the case of a culture grown in complex medium. On the contrary, cultivation at 20 °C in the complex medium gave rise to the highest membrane fluidity with concomitant decrease of T_m by 10.5 °C. In mineral media at 20 °C the corresponding changes of T_m were almost negligible. After a temperature shift from 40 to 20 °C, the cultures from all three media displayed the same adaptive induction of fatty acid desaturase despite their different membrane fluidity values immediately after cold shock.     

The growth of four species of Azolla as affected by temperature

The growth of 22 strains of Azolla pinnata R. Br., 3 strains of A. filiculoides Lam. and one strain each of A. mexicana Presl and A. caroliniana Willd. was tested separately in liquid culture media kept in controlled, artificial light (30 klux) growth cabinets. Three temperature levels were used: 33°C (37/29°C day/night), 29°C (33/25°C) and 22°C (26/18°C)/ Photoperiod was 12 h a day.For most A. pinnata strains (except three) and an A. mexicana strain the maximum weekly relative growth rate was higher at 33°C than at 22°C, but not for A. filiculoides and A. caroliniana. The highest value of maximum relative growth rate corresponded to 1.9 doubling days and in most strains this occurred in the first week. As the plants grew, the growth rate slowed down more severely at higher temperatures. The maximum biomass was higher at 22°C than at 33°C in all strains. At 22°C, it took 30–50 days to attain maximum biomass and the highest value was 14 g N m^?2 or 320 g dry m^?2 by A. caroliniana, followed by 12 g N m^?2 or 290 g dry wt. m^?2 by one strain of A. filiculoides. At 29°C, the maximum biomass was attained in 20–35 days. The highest value was 6.3 g N m^?2 or 154 g dry wt. m^?2 by A. caroliniana. At 33°C, most A. pinnata strains gave a maximum biomass of less than 4 g N m^?2 after 13–23 days, while some strains grew up to 30 days, resulting in a higher maximum biomass. The highest maximum biomass at 33°C was 5.5 g N m^?2 or 140 g m^?2 dry wt. by A. pinnata from Cheng Mai while the maximum biomass of A. filiculoides and A. caroliniana was much less. Azolla filiculoides requires lower temperature than other species for its growth. Azolla pinnata has the best tolerance to high temperatures among the four species. Azolla mexicana could not be discriminated from A. pinnata in its response to temperature. Azolla caroliniana may keep an intermediate position between A. filiculoides and A. pinnata in temperature response.The formation of ammonia in the medium was examined and it occurred mostly under stationary growth conditions, but, at 33°C, some strains of A. pinnata and A. mexicana released or formed ammonia at 0.3–0.8 μg N ml^?1 per week during their initial exponential growth stage.     

Serial Subcultivation of Giardia lamblia in Keister's Modified TYI-S-33 Medium Containing Ultroser G

ABSTRACT. The ability of Giardia strains of the duodenalis type to grow in Keister's modified TYI-S-33 medium varies with serum lot. Recently, strains of Giardia including MR4, WB, and Human-1-Portland, have been cultivated in Keister's modified TYI-S-33 medium containing the serum substitute Ultroser G and have been cultured serially at least 40 times. An optimal concentration of 8% Ultroser G promotes maximal growth in Keister's modified TYI-S-33 medium for all three strains. This concentration of Ultroser G will produce a two-log increase in the number of trophozoites in approximately three days post-inoculation. Generation times for the trophozoites ranging from 6 to 11 h have been achieved in Keister's modified TYI-S-33 containing 10% adult bovine serum and from 8 to 13 h in Keister's modified TYI-S-33 with 8% Ultroser G. Despite the excellent growth of Giardia strains in medium containing Ultroser G, the maximum trophozoite density is only about half of that achieved in Keister's modified TYI-S-33 medium supplemented with 10% adult bovine serum. Comparisons of trophozoites grown with serum or the serum substitute reveal no discernable differences in morphology and motility. Additionally, these strains have been successfully cryopreserved and revived in Keister's modified TYI-S-33 medium supplemented with Ultroser G. Because Ultroser G is a characterized mixture of six main groups of ingredients (growth factors, adhesion factors, mineral trace elements, hormones, binding proteins, and vitamins), the variability in cell proliferation that may occur when changing serum lots should be minimized when using this product.     

Serial subcultivation of Giardia lamblia in Keister's modified TYI-S-33 medium containing ultroser G.

The ability of Giardia strains of the duodenalis type to grow in Keister's modified TYI-S-33 medium varies with serum lot. Recently, strains of Giardia including MR4, WB, and Human-1-Portland, have been cultivated in Keister's modified TYI-S-33 medium containing the serum substitute Ultroser G and have been cultured serially as least 40 times. An optimal concentration of 8% Ultroser G promotes maximal growth in Keister's modified TYI-S-33 medium for all three strains. This concentration of Ultroser G will produce a two-log increase in the number of trophozoites in approximately three days post-inoculation. Generation times for the trophozoites ranging from 6 to 11 h have been achieved in Keister's modified TYI-S-33 containing 10% adult bovine serum and from 8 to 13 h in Keister's modified TYI-S-33 with 8% Ultroser G. Despite the excellent growth of Giardia strains in medium containing Ultroser G, the maximum trophozoite density is only about half of that achieved in Keister's modified TYI-S-33 medium supplemented with 10% adult bovine serum. Comparisons of trophozoites grown with serum or the serum substitute reveal no discernable differences in morphology and motility. Additionally, these strains have been successfully cryopreserved and revived in Keister's modified TYI-S-33 medium supplemented with Ultroser G. Because Ultroser G is a characterized mixture of six main groups of ingredients (growth factors, adhesion factors, mineral trace elements, hormones, binding proteins, and vitamins), the variability in cell proliferation that may occur when changing serum lots should be minimized when using this product.     

Nutritional requirements for the production of dithiolopyrrolone antibiotics by Saccharothrix algeriensis NRRL B-24137

The amino acid and humic acid requirements of Saccharothrix algeriensis NRRL B-24137 for growth and production of the dithiolopyrrolone antibiotics were studied in a semi-synthetic medium (SSM). Nature and concentration of amino acids and humic acid strongly influenced the growth and dithiolopyrrolone specific production.

The highest value of thiolutin (acetyl-pyrrothine) specific production was obtained in the presence of 1 g/l humic acid (336 mg/g DCW), and in the presence of 5 mM l-cystine (309 mg/g DCW) as compared to 19 mg/g DCW obtained with the control. Furthermore, thiolutin production was increased about six-fold, four-fold and three-fold in the presence of l-proline, l-glutamic acid and dl-histidine, respectively. In contrast, the production of thiolutin was reduced by addition of other amino acids such as l-glutamine, dl-ethionine, l-methionine and l-arginine. The highest value of isobutyryl-pyrrothine production was obtained in the presence of 2,6-diaminopimelic acid and l-lysine (7.8 and 1.0 mg/g DCW, respectively). However, the highest value of butanoyl-pyrrothine production was obtained in the presence of humic acid (6.6 mg/g DCW), followed by l-cysteine and l-proline (3.6 and 3.2 mg/g DCW, respectively). In addition, the maximum specific production of senecioyl-pyrrothine (29 mg/g DCW) and tigloyl-pyrrothine (21 mg/g DCW) was obtained in the presence of humic acid. We found that, except for isobutyryl-pyrrothine, production of all dithiolopyrrolones was favoured by addition of l-proline. The maximum specific production was obtained with l-proline at concentrations of 2.50 mM for thiolutin (133 mg/g DCW), 1.25 mM for senecioyl-pyrrothine, tigloyl-pyrrothine and butanoyl-pyrrothine production (29, 23 and 3.9 mg/g DCW, respectively). Production of all dithiolopyrrolones strongly decreased as the l-methionine or dl-ethionine concentration was increased in the culture medium.     

新生隐球菌半胱氨酸转运蛋白Mup1鉴定及其表达调控研究

【目的】鉴定新生隐球菌(Cryptococcus neoformans)的半胱氨酸转运蛋白及其对致病性的影响。【方法】构建候选基因敲除株,检测突变株以半胱氨酸为唯一硫源的生长情况;检测半胱氨酸转运蛋白Mup1对新生隐球菌毒力因子表达和不同胁迫条件下生长的影响;通过新生隐球菌大蜡螟(Galleria mellonella)和小鼠感染模型分析Mup1对致病性的影响;通过转录组分析和酵母单杂交研究硫代谢核心转录因子Cys3与Mup1的调控关系。【结果】Mup1具有转运半胱氨酸、胱氨酸、胱硫醚和同型半胱氨酸的能力。基因MUP1缺失不影响毒力因子表达和细胞对应激的反应。大蜡螟和小鼠隐球菌感染模型表明Mup1对新生隐球菌的致病性无显著影响。转录组分析和酵母单杂交实验显示Cys3可能间接调控MUP1的转录。【结论】新生隐球菌Mup1具有转运半胱氨酸、胱氨酸、胱硫醚和同型半胱氨酸的功能,但不影响致病性,基因转录可能受Cys3的间接调控。     

Involvement of glutathione peroxidase 1 in growth and peroxisome formation in Saccharomyces cerevisiae in oleic acid medium

Saccharomyces cerevisiae is able to use some fatty acids, such as oleic acid, as a sole source of carbon. β-oxidation, which occurs in a single membrane-enveloped organelle or peroxisome, is responsible for the assimilation of fatty acids. In S. cerevisiae, β-oxidation occurs only in peroxisomes, and H₂O₂ is generated during this fatty acid-metabolizing pathway. S. cerevisiae has three GPX genes (GPX1, GPX2, and GPX3) encoding atypical 2-Cys peroxiredoxins. Here we show that expression of GPX1 was induced in medium containing oleic acid as a carbon source in an Msn2/Msn4-dependent manner. We found that Gpx1 was located in the peroxisomal matrix. The peroxisomal Gpx1 showed peroxidase activity using thioredoxin or glutathione as a reducing power. Peroxisome biogenesis was induced when cells were cultured with oleic acid. Peroxisome biogenesis was impaired in gpx1? cells, and subsequently, the growth of gpx1? cells was lowered in oleic acid-containing medium. Gpx1 contains six cysteine residues. Of the cysteine-substituted mutants of Gpx1, Gpx1^C36S was not able to restore growth and peroxisome formation in oleic acid-containing medium, therefore, redox regulation of Gpx1 seems to be involved in the mechanism of peroxisome formation.     

An ethylene-forming enzyme in Citrus unshiu fruits

An ethylene-forming enzyme from Citrus unshiu fruits was purified some 630-fold. The enzyme catalysed ethylene formation from 1-aminocyclopropane-1-carboxylic acid in the presence of pyridoxal phosphate, β-indoleacetic acid, Mn²⁺ and 2,4-dichlorophenol. It behaved as a protein of MW 40 000 on Sephacryl S-200 gel filtration, and gave one band corresponding to a MW of 25 000 on SDS-PAGE. It had a specific activity of 0.025 μmol/min·mg protein. It exhibited IAA oxidase activity and had no guaiacol peroxidase or NADH oxidase activity. Its K_m for ACC was 2.8 mM, and its pH optimum was 5.7. It was inhibited by potassium cyanide n-propyl gallate and Tiron. d-Mannose, histidine, iodoacetate, PCMB, dimethylfuran and superoxide dismutase showed no inhibition. β-Indoleacrylic acid against IAA competitively inhibited ethylene formation. Other IAA analogues, such as β-indolepropionic acid, β-indolecarboxylic acid and β-indolebutylic acid, slightly stimulated ethylene formation. β-Indoleacrylic acid against 1-aminocyclopropane-1-carboxylic acid non-competitively inhibited ethylene formation. Ascorbate was a potent inhibitor. The inhibitory effects, however, were not always reproduced in vivo. It is difficult to identify this enzyme system as a natural in vivo system from the above observations. Nevertheless, the possible in vivo participation of this in vitro enzyme system is discussed.     

Cotugnia digonopora: Transport of leucine

The uptake of leucine through the tegument of Cotugnia digonopora, a cestode found in the fowl intestine, occurs by a process of active transport. The K_t of transport is 0.87 mM and the V_max is 0.223 μmol/min/g. Uptake of the amino acid is competitively inhibited by valine (K_t = 1.30 mM). Potassium cyanide and 2,4-dinitrophenol do not completely block the entry of leucine into the parasite.     

Nutrient Requirements of Renibacterium salmoninarum on Agar and in Broth Media

In well-aerated broth cultures, good growth of Renibacterium salmoninarum was obtained in a serum-free medium consisting of 1% peptone, 1% yeast extract, and 0.1% l-cysteine (PYC broth). In contrast, serum or charcoal is required for growth on agar medium. Charcoal treatment of broth media, either before bacterial inoculation or during growth, increased the growth of R. salmoninarum, whereas the surfactants Tween 20 and Tween 80 inhibited growth. l-Cysteine was essential for optimal growth. Other organic sulfur compounds, such as d-cysteine, l-methionine, homocysteine, homocysteine thiolactone, and reduced glutathione, supported only lower levels of growth, while cystine and dithiothreitol did not allow growth.     

An antibiotic-free medium for the xenic cultivation of Entamoeba gingivalis.

Diamond's TYI-S-33 (Trypticase-Yeast Extract-Iron-Serum) medium was used as the basis for a new antibiotic-free medium for xenic growth of Entamoeba gingivalis. Nutritional requirements of the oral protozoan were determined in an effort to optimize growth. TYI-S-33 medium did not support E. gingivalis growth prior to modification. The changes included: (a) deletion of L-cysteine.HCl and thioctic acid, (b) substitution of glucose for dextran I (mol. wt 185,000) or rice starch, (c) reduction of concentrations of tryptone (2.5 g l-1), yeast extract (1.25 g l-1) and dextran I (1 g l-1), (d) increased concentration of ferric ammonium citrate (0.2 g l-1), and (e) addition of gastric mucin (2.4 g l-1). Dextran I was chosen as the major carbon source; its use in the medium limited growth of accompanying bacteria. This new antibiotic-free medium significantly increased E. gingivalis growth (16-20 E. gingivalis trophozoites observed per field) as compared to growth in Diamond's TYSGM-9 (Trypticase-Yeast Extract-Serum-Gastric Mucin) medium (six to 10 E. gingivalis trophozoites observed per field).     

Antioxidant and phenolic acid profiles of tissue cultured and acclimatized Merwilla plumbea plantlets in relation to the applied cytokinins

Merwilla plumbea (Lindl.) Speta is an important medicinal plant widely used in traditional medicine. We evaluated the effect of five cytokinins [benzyladenine (BA), 2-isopentenyladenine (2iP), meta-topolin (mT), meta-topolin riboside (mTR), and meta-methoxy-9-tetrahydropyran-2-yl-topolin (MemTTHP)] on the level of phenolic acids and antioxidant activity of M. plumbea during the tissue culture and acclimatization stages. Two cytokinins (mT and mTR) significantly improved the antioxidant activity of tissue culture plantlets while the control plantlets were better after acclimatization. Using UPLC–MS/MS, the levels of hydroxybenzoic and hydroxycinnamic acid derivatives (phenolic acids) varied significantly during tissue culture and acclimatization, depending on the cytokinin and plant part analyzed. Vanillic acid (24.9 μg g⁻¹) detected in underground parts of tissue culture plants supplemented with BA was the most abundant phenolic acid detected. The current findings indicate that the phytochemicals together with the bioactivity during in vitro propagation of M. plumbea is influenced by the cytokinin type used and the stage of plant material collection.     

Amdxidation and demethylation of N,N-dimethylaniline by rabbit liver and lung microsomes effects of age and metals

Lung N-oxidase enzyme activity was about three times higher than liver N-oxidase at the pH optimum, about pH 8.9, whereas the activities were nearly the same at more physiological ranges of pH. The lung N-oxidase was also stimulated about 2-fold by 100 mM Mg²⁺ and by 0.1 mM Hg²⁺, whereas liver N-oxidase activity was inhibited by these concentrations of ions. The difference in response of liver and lung enzymes to Mg²⁺ and Hg²⁺ was not altered by preparing the microsomes in the presence of 50 mM ethylenediamine tetraacetic acid (EDTA) in 0.1 M Tris (hydroxymethyl) amino methane (Tris) buffer or 50 mM EDTA in 0.1 M KPO₄ buffer, both at pH 7.6, indicating that the differences are probably not due to the presence of endogenous metals. The difference between the liver and lung N-oxidase systems may be due to the tissue environment rather than to the enzyme itself since mercury stimulation of lung N-oxidation began to disappear upon partial purification of the N-oxidase enzymes. In contrast to the effects of Hg²⁺ and Mg²⁺, 1 mM Ni²⁺ enhanced liver N-oxidase activity about 30% and 5 mM Ni²⁺ stimulated lung enzyme activity about 30% whereas concentrations above 10 mM were inhibitory to both N-oxidases. Both liver and lung demethylase activities were inhibited by these concentrations of Mg²⁺, Hg²⁺ and Ni²⁺.Various suifhydryl reagents were also tested for their effects on these enzymes. The mercurials, para-chloromercurybenzoate (pCMB) and phenylmercuryacetate (PMA) at concentrations of 0.1 mM had the same effect as HgCl₂ inhibiting both demethylases and liver N-oxidase, but stimulating lung N-oxidase activity. However, 0.1 mM to 1 mMN-ethylmaleimide (NEM) and iodoacetamide had little if any effect on either liver or lung N-oxidase. It was also shown that Hg²⁺ effects on N-oxidase activity could be overcome by dilution.Changes in N,N-dimethyl aniline (DMA) metabolism with age were followed in rabbits from 4 days old to adult. There was a steady increase in lung demethylase activity and N-oxidase activity in the liver and lung to adult levels. However, the liver demethylase had a sharp increase in activity between 2 weeks and 1 month much like that seen with benzphetamine demethylase in rabbit liver.Activities of N-demethylase in liver and lung, and N-oxidr.se in liver from new-born rabbits were from 10 to 20 % of adult levels. However, in lung, N-oxidase activities in the newborn were about 50 % of adult levels. Microsomal N-oxidation in lungs from 2-day-old rabbits was stimulated by 0.1 mM mercury just as in the adult.