Some characteristics of fucidin biosynthesis]

Some features of fusidin biosynthesis by 2 strains of Fusidium coccineum were studied proceeding from the peculiar properties of the antibiotic molecule structure. It was found that an increase in the levels of the carbon sources in the medium stimulated the biosynthesis of fusidin, while excessive concentrations of nitrogen especially in its inorganic and amino acidpeptide forms stimulated the organism growth and lowered the antibiotic activity levels. The concentration of nitrogen in the medium is considered as one of the possible control mechanisms in the processes of the fungus growth and biosynthesis of fusidin.     

Carbohydrate and pyruvic acid degradation pathways in Fusidium coccineum strains with varying levels of antibiotic synthesis]

A number of enzymes and reactions of glycolysis, pentose-phosphate cycle and degradation of pyruvic acid in strains of F. coccineum with various levels of antibiotic production was studied comparatively. The experiments showed that highly productive strains were characterized by higher activity of the NADP-deficient enzymes of the pentoze-phosphate cycle as compared to the low active strains. The activity levels of glycolytic enzymes, such as fructose-diphosphate-aldolase and 3-phosphoglycerolaldehydehydrogenase did not practically differ. Significant differences were found in the reactions of puryvic acid degradation: the activity of cytoplasmic pyruvatedecarboxylase in the mutant with high antibiotic production level was lower than that in the low productive strain, while oxidation of the pyruvate of the mitochondrial fraction was on the contrary more intensive than in the highly productive strain. Therefore, metabilism in the strains studied was characterized by ever-increasing biochemical changes with an increase in their antibiotic productivity. Lowering of the growth rate of the mutants as their capacity for antibiotic supersynthesis increased and subsequently the anabolic processes became more intensive was accompanied by increasing derepression of the key enzymes of carbohydrate metabolism and in particular NADR-deficient dehydrogenase of the pentose cycle and pyruvatedehydrogenase, significant for fusidin biosynthesis and providing production of the antibiotic of steroid nature by cofactor NADP-H and acetyl-KoA, the primary precursor.     

Energy metabolism study of Fusidium coccineum strains with varying levels of antibiotic formation

Energy parameters of the two strains of the inperfect fungus Fusidium coccineum with different levels of antibiotic production were studied comparatively. It was shown that the respiration activity of the both strains was almost completely suppressed by KCN+ salycyl hydroxomate. It provided a supposition that the respiration activity was almost selectively connected with the mitochondria. The analysis of the energy parameters and especially the efficiency of the substrate consumption indicated that the system of oxidative phospholiration was dominant in the energy supply in both the strains. The differences between the strains were observed in the growth rate and the level of KCN-stable respiration. A change in the respiration of the active strain to the alternative KCN-stable path was observed by the end of the 6-8 day fermentation process when significant amounts of fusidin accumulated in the fermentation broth. Correlation between the level of KCN-stability and the antibiotic production was found.     

Extracellular expression of pullulanase from Bacillus naganoensis in Escherichia coli

The pullulanase encoding gene from Bacillus naganoensis was successfully overexpressed in Escherichia coli both intracellularly and extracellularly using expression vector pET22b (+). The distribution of recombinant protein was significantly affected by temperature and carbon and nitrogen sources. The highest levels of extracellular and intracellular production of the target protein were observed at 25 and 20 °C, respectively. The addition of maltose, dextrin, pullulan, and soluble starch to the culture medium caused significant increases in the extracellular yield of pullulanase, while glucose strongly inhibited pullulanase production. The results show that the optimal conditions for maximum yield of extracellular pullulanase required high levels of carbon source and a limited nitrogen supply, while low concentrations of carbon and nitrogen source favored intracellular pullulanase expression. High concentrations of nitrogen source strongly inhibited the production of pullulanase.     

Influence of the culture medium on the production of iturin A by Bacillus subtilis

The production of iturin A by Bacillus subtilis was studied with respect to the composition of the culture medium. Increasing phosphate concentrations did not modify the antibiotic yield. Fructose, sucrose and mannitol were better carbon sources than glucose for antibiotic production. The nature of the nitrogen source was an important factor in the production of antibiotic. Among the amino acids which are components of iturin A, L-asparagine was the best substrate for the biosynthesis of iturin A; L-glutamine and L-serine were rather poor substrates while L-proline and D-tyrosine gave no antibiotic. Ammonium salts permitted good synthesis of antibiotic but the addition of calcium ions to the culture medium inhibited the excretion of antibiotic from the cells.     

Biotransformation of phosphogypsum in media containing different forms of nitrogen

Studies on the biotransformation of phosphogypsum (a waste product formed in the course of the production of phosphorous fertilizers) with the use of sulfate reducing bacteria (SRB) demonstrated that it is a good source of sulfates and biogenic elements for these bacteria, though the addition of organic carbon and nitrogen is necessary. The aim of this study was to investigate the form of nitrogen and C:N ratio in the medium on the growth of SRB community in cultures containing phosphogypsum. Batch community cultures of sulfate reducing bacteria were maintained in medium with phosphogypsum (5.0 g/l), different concentrations of sodium lactate (1.6 - 9.4 g/l) and different forms (NH4CI, CO(NH2)2, KNO3) and concentrations (0 - 250 mg/l) of nitrogen. The growth of SRB was studied in the C:N ratio of from 2:1 to 300:1. It was found that: 1 - the best source of nitrogen for SRB is urea, followed by ammonium, the worst were nitrates; 2 - the bacteria were also able to grow in medium without nitrogen but their activity was then by approximately 15% lower than in optimal growth conditions; 3 - in medium with KNO3 inhibition of sulfate reduction by approx. 50% was observed; 4 - the highest reduction of nitrates (removal of nitrate) in media with phosphogypsum and nitrates was at limiting concentrations of sodium lactate. This is probably caused by the selection under these conditions (low concentration of hydrogen sulfide) of denitrifying bacteria or sulfate reducing bacteria capable of using nitrates as an electron acceptor.     

Enhanced lovastatin production by solid state fermentation ofMonascus ruber

The purpose of this study was to optimize the solid state cultivation ofMonascus ruber on sterile rice. A single-level-multiple-factor and a single-factor-multiple-level experimental design were employed to determine the optimal medium constituents and to optimize carbon and nitrogen source concentrations for lovastatin production. Simultaneous quantitative analyses of the β-hydroxyacid form and β-hydroxylactone for of lovastatin were performed by the high performance liquid chromatography (HPLC) method with a UV photodiode-array (PDA) detector. The total lovastatin yield (4≈6 mg/g, average of five repeats) was achieved by adding soybean powder, glycerol, sodium nitrate, and acetic acid at optimal composition of the medium increased by almost 2 times the yield observed prior to optimization. The experimental results also indicated that the β-hydroxylactone form of lovastatin (LFL) and the β-hydroxyacid form of lovastatin (AFL) simultaneously existed in solid state cultures ofMonascus ruber, while the latter was the dominant form in the middle-late stage of continued fermentation. These results indicate that optimized culture conditions can be used for industrial production of lovastatin to obtain high yields.     

盾壳霉产生几丁质酶的条件研究

本实验采用摇瓶培养研究了盾壳霉(Coniothyrium minitans)产生几丁质酶的条件。改良的天然马铃薯葡萄糖培养基(mPDB)较合成培养基(SMCS)更适宜作为盾壳霉产生几丁质酶的基础培养基。添加9种不同碳源试验表明葡萄糖较适宜于盾壳霉产几丁质酶;氮源试验表明硝酸钾是产酶的较适宜氮源。盾壳霉形成几丁质酶的培养时间以15 d为佳,培养的适宜pH值为6.5。     

The effect of lactate addition on the growth of Penicillium camembertii on glutamate

The effect of an additional carbon source, lactate, on Penicillium camembertii growth on glutamate as both carbon and nitrogen sources was examined. Glutamate (and lactate) was present in excess in both media. Throughout the whole culture, similar growth time-courses were recorded on both media, indicating the absence of a lactate effect on growth. During the first part of growth, corresponding to an increasing amount of viable biomass, the rate of glutamate consumption remained high, as well as the related ammonium production, indicating its use as a carbon source in addition to being nitrogen source. The low growth rates recorded during the last part of growth resulted in low glutamate consumption, while lactate consumption continued mainly by a maintenance mechanism for the energy supply. A clear differentiation appeared therefore between the carbon source and the energy source: glutamate was mainly used as C source (and N source) for biosynthesis, while lactate was mainly assimilated for energy supply. Carbon and nitrogen yield examinations confirmed this result. Indeed, the C/N ratio found for P. camembertii cellular material (8.14) was about twice that of glutamate (4.29). From this, about half of the available nitrogen was used for biomass formation during growth on glutamate-lactate based medium, as experimentally confirmed (constant yield nitrogen from biomass on nitrogen from glutamate was found (0.49), while the excess nitrogen was released as ammonium). The constant and close to unit (0.99) yield carbon from CO2 on carbon from lactate, also recorded during growth on glutamate-lactate based medium, confirmed that lactate was mainly used as an energy source.     

Medium optimization of antifungal lipopeptide,iturin A,production by <Emphasis Type="Italic">Bacillus subtilis</Emphasis> in solid-state fermentation by response surface methodology

Iturin A, a lipopeptide antibiotic produced by Bacillus subtilis RB14-CS, suppresses the growth of various plant pathogens. Here, enhancement of iturin A production in solid-state fermentation (SSF) on okara, a soybean curd residue produced during tofu manufacturing, was accomplished using statistical experimental design. Primary experiments showed that the concentrations of carbon and nitrogen sources were the main factors capable of enhancing iturin A production, whereas initial pH, initial water content, temperature, relative humidity, and volume of inoculum were only minor factors. Glucose and soybean meal were the most effective among tested carbon and nitrogen sources, respectively. Based on these preliminary findings, response surface methodology was applied to predict the optimum amounts of the carbon and nitrogen sources in the medium. The maximum iturin A concentration was 5,591 μg/g initial wet okara under optimized condition. Subsequent experiments confirmed that iturin A production was significantly improved under the predicted optimal medium conditions. The SSF product generated under the optimized conditions exhibited significantly higher suppressive effect on the damping-off of tomato caused by Rhizoctonia solani K-1 compared with the product generated under the non-optimized conditions.     

Acriflavin Induction of Dyskinetoplasy in Leptomonas karyophilus*

SYNOPSIS. Acriflavin concentrations of 0.025 μg/ml and higher were Lo Leptomonas karyophilus in NNN medium to which no ribohad been added, and did not bring about the production of dys plastic forms. Upon addition of 0.4 μg/ml of riboflavin, contions of acriflavin up to 10.0 μg/ml allowed growth and rein the production of up to 86% dyskinetoplastic forms. Under conditions, increasing concentrations of acriflavin decreased the growth rate while increasing the rate of production of dyskinetoplastic forms. The number of dyskinetoplastic forms increased with time while the number of kinetoplastic forms remained approximately constant or decreased due to death. At a concentration of 1.0 μg/ml acriflavin and 0.4 μg/ml riboflavin, growth was primarily due to the production of dyskinetoplastic forms.     

Production of exopolysaccharides by Acinetobacter strains in a controlled fed-batch fermentation process using soap stock oil (SSO) as carbon source

The production of two extracellular capsular heteropolysaccharides by two different Acinetobacter strains has been studied in separate controlled fermentation processes with a view to their industrial applications as specific dispersing agents. The first, emulsan, is an extracellular polyanionic amphipathic heteropolysaccharide (MW 10(6) D) made by A. calcoaceticus RAG-1. It forms and stabilizes oil in water emulsions. The other, biodispersan (PS-A2), is another extracellular zwitterionic heteropolysaccharide (MW 51 kD) made by A. calcoaceticus A2. This polysaccharide disperses big solid limestone granules forming micron-size water suspension. Both polysaccharides are synthesized within the cells, exported to their outer surface to form an extracellular cell-associated capsule and released subsequently into the growth medium. The polymers were produced in a computer-controlled fed-batch intensively aerated fermentation process. A commercially available and cheap fatty acids mixture (soap stock oil) served as the carbon source, and was fed in coordination with the required nitrogen. The coordinated feed of carbon and nitrogen was operated on the basis of two metabolic correlations: The first correlation related the cell protein produced and the ammonium nitrogen consumed with the outcoming coeffients of 24 and 21 mM NH3/g protein for the emulsan and the biodispersan fermentations respectively. The second correlation linked the consumption of the fatty acids with that of the nitrogen source dictating the appropriate C/N ratio of the feed into the operating fermentor. These ratios were 7.7 g C/g N for the emulsan fermentation and 8.5 gC/g N in the case of the biodispersan production process.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of different C/N ratios on carotenoid and lipid production by Rhodotorula glutinis

Due to the increasing demand for sustainable biofuels, microbial oils as feedstock for the transesterification into biodiesel have gained scientific and commercial interest. Also, microbial carotenoids have a considerable market potential as natural colorants. The carbon to nitrogen (C/N) ratio of the respective cultivation media is one of the most important parameters that influence the production of microbial lipids and carotenoids. Thus, in the present experiment, the influence of different C/N ratios, initial glucose loadings, and ammonium concentrations of the cultivation medium on microbial cell growth and lipid and carotenoid production by the oleaginous red yeast Rhodotorula glutinis has been assessed. As a general trend, both lipid and carotenoid production increased at high C/N ratios. It was shown that not only the final C/N ratio but also the respectively applied initial carbon and nitrogen contents influenced the observed parameters. The lipid yield was not affected by different ammonium contents, while the carotenoid production significantly decreased both at low and high levels of ammonium supply. A glucose-based increase from C/N 70 to 120 did not lead to an increased lipid production, while carotenoid synthesis was positively affected. Generally, it can be asserted that lipid and carotenoid synthesis are stimulated at higher C/N ratios.     

NUTRITIONAL REQUIREMENTS FOR OVULE FORMATION IN EXCISED PISTILS OF NIGELLA

The nutritional requirements for ovule formation in Nigella saliva L. were investigated by growing excised pistils on defined media. Pistils grown on a medium containing the minerals of Murashige and Skoog produced significantly more ovules than on a medium containing the minerals of Bilderback. When the nitrogen, sulfate, and phosphate of the Bilderback medium were adjusted to levels comparable to those of the Murashige and Skoog medium, a similar number of ovules was formed. The effect of different forms and concentrations of nitrogen on ovule formation and pistil growth was investigated. High concentrations of nitrate (40 mil) favored pistil growth and ovule formation, but comparable levels of ammonium were toxic. When ammonium at concentrations above 10 mM was added to nitrate media, ovule formation was inhibited. A medium containing low concentrations of ammonium (10 mM) and nitrate (5 mM) supported more ovule formation and pistil growth in young pistils than a low-nitrate (5 mM) medium without ammonium. However, ovule formation on a medium containing 10 mM ammonium and 5 mM nitrate was significantly less than on a medium containing only 15 mM nitrate. Low concentrations of organic nitrogen in the form of α-alanine (1 mM) and γ-aminobutyric acid (5 mM) supported ovule formation and pistil growth similar to a high nitrate medium.     

红姜花(姜科)同步大量开花的适应意义

两性花植物同步大量开花增加了个体花展示大小,能吸引更多的传粉者,使植株获得更多的交配机会,但也不可避免地带来不同程度的同株异花授粉,进而对被子植物的性资源分配、花部性状以及雌雄异株的进化等产生重要的影响.本文以姜科红姜花(Hedychium coccineum)为研究对象,通过人工授粉和操控试验、传粉动物的观察、自然结果率和自然居群的大小和密度的调查,探讨红姜花同步大量开花的适应意义.结果表明:(1)红姜花的穗状花序由57.33±1.68(n=30)个蝎尾状聚伞小花序组成,每个小花序具3.8±0.15(n=30)朵花,同花序上所有的小花序同步开花,不同小花序内的花按轮次同步开放,使花序在整个开花期间保持有数十朵花同时开放,花序水平上的花展示极为显著;(2)红姜花为自交亲和植物,但不存在自动自花授粉,自然居群存在严重的传粉者限制,其结实也存在着资源限制;(3)多型蓝凤蝶(Papilio memnon)、小矩翅粉蝶(Dercas lycorias)和黑角尖翅粉蝶云南亚种(Appias indra aristoxemus)是红姜花的有效传粉者,3种蝴蝶对红姜花不同大小花序的访问频率都显著不同,随着花序花展示大小的增加其访问频率也显著增加;(4)红姜花同一个体小花序内不同轮次花之间的胚珠数随轮次显著减少,而花粉数前3轮随轮次显著增加.胚珠数的递减及结实存在着资源限制,说明红姜花一个花序开大量的花并不是为了增加结实,而花粉数前3轮的递增,有利于花粉的分散输出,提高个体的雄性适合度.     

Maximization of recombinant Helicobacter pylori neutrophil activating protein production in Escherichia coli: improvement of a chemically defined medium using response surface methodology

Medium optimization for the production of constitutive recombinant Helicobacter pylori neutrophil activating protein (NAP) in Escherichia coli was investigated by using response surface methodology. Carbon to nitrogen ratio, concentrations of sodium polyphosphate and magnesium sulfate were considered as independent variables. The optimized medium was a chemically defined medium with a carbon to nitrogen ratio of 14.4 and with concentrations of sodium polyphosphate and magnesium sulfate about 7.1 g l(-1) and 3.04 g l(-1) respectively. The maximum recombinant NAP production level (1184.6 mg l(-1)) was 29.96% higher than that in control medium.     

Utilization of Carbon- and Nitrogen-containing Compounds for Neomycin Production by Streptomyces fradiae

A number of carbon and nitrogen compounds were tested for their effect on growth of Streptomyces fradiae 3535 and neomycin production. Dextrin, starch, and maltose were excellent carbon sources for neomycin production, and sodium nitrate, aspartic acid, and glutamic acid were adequate nitrogen sources. Studies on biochemical changes during fermentation in four typical media indicated that there was no direct relation between the growth of the organism and neomycin formation. The pH of the medium might be an important factor for neomycin synthesis. The quantitative formation of neomycin components depended on the variation of carbon and nitrogen sources. On the basis of this study, a suitable synthetic medium for neomycin production has been developed.     

内生解淀粉芽孢杆菌CC09产Iturin A摇瓶发酵条件优化

【目的】提高内生解淀粉芽孢杆菌CC09发酵产抗菌脂肽Iturin A的产量。【方法】首先采用单因子实验研究了碳源、氮源、NaCl浓度、pH、温度、转速和装液量等因子对CC09产Iturin A能力的影响,然后对其中显著性因子:氮源浓度、pH、温度及装液量4个因素进行正交实验,进一步优化发酵条件。【结果】优化培养基组成及发酵条件可以提高CC09菌株的生长速度及产Iturin A的量,其中可溶性淀粉以及一定比例的蛋白胨和酵母粉是CC09菌株产Iturin A的良好碳源和氮源;培养温度、装液量、培养液pH等也对CC09菌株产Iturin A有显著影响。优化后的培养基成分:可溶性淀粉(碳源)5 g/L、比例为3:1的胰蛋白胨酵母粉混合氮源15 g/L、NaCl 1 g/L;最佳培养条件:pH 6.0、28°C、摇床转速120 r/min、培养瓶装液量20%。【结论】在此条件下,Iturin A的产量可达到690 mg/L,较优化前的138 mg/L提高了4倍。     

Optimization of nutritional requirements for gentamicin production by Micromonospora echinospora

Effect of various fermentation media, carbon sources, nitrogen sources, phosphate concentration and culture requirements includes inoculum levels and age were determined on gentamicin production and biomass dry weight production for Micromonospora echinospora, a gentamicin producing strain. Of the substrates tested, starch as a sole carbon source promoted maximal gentamicin production, while maltose promoted maximal growth. Yeast extract as a sole nitrogen source promoted maximal growth, while soyabean meal for gentamicin production. Increasing phosphate concentration enhanced gentamicin production and observed optimum production at 1.2 g/1 (6% v/v) of phosphate having 72 h old inoculum in the medium. Highest gentamicin production was obtained after cultivation with shaking for 120 h in a medium containing starch 0.75% (w/v), soyabean meal 0.5%, K2HPO4 0.12%, CaCO3 0.4%, FeSO4 0.003% and CoCl2 0.0001%. The gentamicin production was 1.2-fold in this medium as compared to basal medium.     

Influence of cultivation conditions on production of lignocellulolytic enzymes by Ceriporiopsis subvermispora

The aim of this work was to make a survey describing factors that influence the production of extracellular enzymes by white-rot fungus Ceriporiopsis subvermispora responsible for the degradation of lignocellulolytic materials. These factors were: carbon sources (glucose, cellulose, hemicellulose, lignin, maltose and starch), nitrogen sources (ammonium sulphate, potassium nitrate, urea, albumin and peptone), pH, temperature and addition of three different concentrations of Cu²⁺ and Mn²⁺. The cellulase and xylanase activities were similar in medium with different carbon sources and the highest cellulase and xylanase activities were measured in medium with urea and potassium nitrate as nitrogen sources, respectively. The highest laccase activity was observed in medium with lignin and peptone as carbon and nitrogen sources. In other experiments, time course of production of lignocellulolytic enzymes by white-rot fungus C. subvermispora in medium with lignin or glucose as carbon sources was observed.