Effect of the carbon source and aeration conditions on homoserine lysine biosynthesis in the threonine-dependent mutant Brevibacterium flavum 2T

The effect of two carbon sources (sucrose and acetate), aeration conditions and threonine concentration on the homoserine and lysine biosynthesis by the threonine-dependent mutant Brevibacterium flavum 2T was examined. It was demonstrated that acetate provided the predominant synthesis of homoserine to a far greater extent than sucrose (with the weight/weight ratio of homoserine : lysine being 2.5-5.0 and 0.8-1,2, respectively). The maximal level of homoserine and lysine was 18-21 and 3-7 g/l on the acetate containing medium and 18-22 and 12-16 g/l on the sucrose containing medium, respectively. On sucrose the total amount of amino acids and the total yield of products as related to the consumed substrate were greater than on acetate. Using the sucrose medium, the effect of aeration conditions and threonine concentration on the biosynthesis of both compounds was investigated. With an aeration increase from 1.3 to 4.6 g O2/l.hr the optimal concentration of threonine in the medium grow. The biosynthesis of homoserine was less sensitive to the inhibitory effect of excessive threonine than that of lysine. With an increase of the threonine concentration in the medium from 0.25 to 3.0 g/l the ratio homoserine : lysine grew from 1.03 to 5.20 (with the sulphite number being 4.6 g O2/l.hr). This effect was independent of the aeration conditions.     

Effects of salts on the lethality of paraquat.

Escherichia coli suffered 95 to 100% lethality when exposed to 1.0 mM paraquat for 30 min at 37 degrees C in aerobic nutrient broth medium but did not lose viability when the exposure was done in Vogel Bonner or tryptic soy yeast extract medium. Paraquat was, however, bacteriostatic in all of these media. Salts, added to the nutrient broth medium, protected against the lethality of paraquat, whereas sucrose did not. Salts of divalent cations were much more effective than salts of monovalent cations. Paraquat increases cyanide-resistant respiration by E. coli; salts added before, but not after, the paraquat diminished this effect. 2,4-Dinitrophenol similarly decreased the cyanide-resistant respiration when added before, but not after, the paraquat. The lethality imposed by paraquat correlated with the rate of cyanide-resistant respiration whether this respiration was modulated by varying salt concentration at a fixed concentration of paraquat or by varying paraquat concentration at a fixed concentration of salt. We conclude that salts or 2,4-dinitrophenol interferes with the active uptake of paraquat by E. coli and thus prevents its lethal effect. The salt concentrations found in a number of commonly used microbiological media are sufficient to exert this effect.     

Influence of glucose,fructose and sucrose as carbon sources on kinetics and stoichiometry of lysine production by <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis>

Batch cultivations of l-lysine-producing Corynebacterium glutamicum ATCC 21253 were carried out on the different carbon sources, glucose, sucrose and fructose. The time profiles of substrate and product concentrations were evaluated to compare kinetics and stoichiometry of lysine production. The lysine yield (mol C/mol C) on glucose was 8% higher than on sucrose and 30% higher than on fructose. The highest final biomass concentration of 5.0 g/l was obtained on glucose, whereas fructose and sucrose yielded 20% less biomass. Compared to glucose, fructose resulted in significantly higher respiration rates, a higher substrate uptake rate but a lower lysine production rate during the cultivation process. This was probably due to a higher tricarboxylic cycle activity combined with a lower activity of the pentose phosphate pathway. On sucrose, specific rates and yields differed significantly from those on fructose and glucose. Transport and metabolism of sucrose, therefore, are not a simple superposition of its building blocks, glucose and fructose. Journal of Industrial Microbiology & Biotechnology (2002) 28, 338–343 DOI: 10.1038/sj/jim/7000252 Received 28 November 2001/ Accepted in revised form 06 March 2002     

补料培养与溶氧控制联合应用对红豆杉细胞培养的影响

为进一步提高红豆杉 (Taxuschinensis (Pilg.)Rehd .)细胞培养过程中紫杉醇的产量 ,采用细胞悬浮培养方法研究了补料培养与溶氧控制联合应用对紫杉醇产量的影响。 5L反应器中补料培养研究表明 ,培养过程中第 16天添加含 2 0g/L蔗糖的补料培养液有利于细胞的生长及紫杉醇的合成。 2 0L反应器中补料培养的研究结果表明 :2 0 %饱和度培养时紫杉醇含量最高 (0 .98mg/gDW) ,但 4 0 %～ 6 0 %溶氧饱和度能提高紫杉醇的产量。进一步研究表明 ,细胞在 6 0 %溶氧饱和度培养 2 0d后转入 2 0 %溶氧饱和度继续培养 12d ,能显著提高紫杉醇产量。补料培养与溶氧控制联合应用时 ,2 0L反应器中红豆杉细胞培养紫杉醇产量可达 18.7mg/L。     

芳香杯伞生物学特性及驯化栽培

以采自于河北省平泉市的一株野生食用菌Clitocybe fragrans的菌丝体为材料,对其营养及环境特性进行研究.检测了不同碳源、氮源、C/N、无机盐在固体培养条件下对芳香杯伞菌丝生长的影响,单因素及正交试验结果表明,实验范围内,芳香杯伞最适碳源为蔗糖、最适氮源为酵母浸粉、最适C/N为40∶1、最适无机盐为硫酸镁.正...     

Fermentation production ofL-Homoserine byCorynehacterium sp. and its possible use in the preparation of threonine and lysine

A mutant Corynebacterium sp. requiring threonine and cultivated for 3 d in a medium containing 15% sucrose, 8% corn-steep and 50 micrograms biotin per litre accumulated 14.5 g L-homoserine per litre. The possibility of fermenting the homoserine obtained for threonine and lysine production was investigated.     

Lysine production by auxotrophic-regulatory mutants of corynebacterium glutamicum

A mutant of Corynebacterium glutamicum dependent on homoserine and resistant both to S-(2-aminoethyl)-L-cysteine and lysine hydroxamate, cultivated under submerged conditions for 4 days in a medium containing sucrose, corn-steep and pea nut mea? hydrolyzate, accumulated 33.5 g/l lysine.     

High-density cultivation of Perilla frutescens cell suspensions for anthocyanin production: Effects of sucrose concentration and inoculum size

High-density cultivation of Perilla frutescens cells for anthocyanin production was carried out in both batch and fed-batch modes in a 500-ml shake flask. In fed-batch cultures, a high cell density of 27.7 g dry cells l⁻¹ and a total anthocyanin production of 3.87 g l⁻¹ by intermittent feeding of all medium components except hormones were obtained. In batch cultures, both initial sucrose concentration and inoculum size showed a conspicuous effect on the kinetics of cell growth, sugar consumption, and secondary metabolite (anthocyanins) production by suspended P. frutescens cells. At an inoculum size of 50 g wet cells l⁻¹, the maximum cell density of 38.3 g dry cells l⁻¹ was obtained after 11 days of cultivation at an initial sucrose concentration of 60 g l⁻¹, the highest pigment production of>5.8 g l⁻¹ was attained after 10 days of cultivation at an initial sucrose concentration of 45 g l⁻¹. These amounts of cell mass and anthocyanin pigments were 3.3 and 24 times higher than those at an initial sucrose concentration of 15 g l⁻¹ and inoculum size of 15 g wet cells l⁻¹, respectively.     

Rosmarinic acid production by Lavandula vera MM cell-suspension culture

The time courses of growth and rosmarinic acid production by Lavandula vera MM cell suspension were investigated. The uptake of the main nutrients (sucrose, nitrogen, phosphorus, K, Ca, Mg) was followed during cultivation and the data on the physiology of the L. vera MM cell culture are presented. It was established that the cell culture synthesizes rosmarinic acid during the linear phase of growth for a relatively short period (between the 4th and 8th days of cultivation). The influence of sucrose concentration in the nutrient medium on cell growth and accumulation of rosmarinic acid by L. vera MM cell culture was investigated. The results showed that 7% sucrose in the nutrient medium ensured a steady growth of the cell suspension and increased the yield of rosmarinic acid (29.2 g/l dry biomass and 507.5 mg/l rosmarinic acid compared to 13.0 g/l dry biomass and 68.6 mg/l rosmarinic acid for the control cultivation with 3% sucrose). Received: 17 September 1996 / Received revision: 31 January 1997 / Accepted: 1 February 1997     

Participation of the cyanide-resistant pathway in respiration of winter rape leaves as affected by plant cold acclimation

Leaf slices sampled from winter rape plants ( Brassica napus L., var. oleifera L., cv. GórczaánAski), grown in cold (5°C), showed an increase in the dark respiration rate (measured at 25°C) as compared to slices cut from control plants (grown at 20/15°C). The effect of low temperature was most pronounced after 4 days of plant growth in the cold. Oxygen uptake by control slices was 60% inhibited by 1 m M KCN and was insensitive to 2.5 m M salicylhydroxamic acid (SHAM). On the contrary, respiration of leaf slices from cold-pretreated plants was more resistant to cyanide (35% inhibition after 4 days of cold treatment) and was 30% inhibited by SHAM. The patterns of cold-induced changes in total respiratory activity and in the estimated activity of alternative pathway were similar. It seems that in leaf slices from plants grown in the cold, the cyanide-resistant, alternative pathway participates in oxygen uptake. Cold treatment of plants also brought about a 4-fold increase in the level of soluble sugars, which reached a maximum on day 4 of exposure to cold. Addition of sucrose to the incubation medium resulted in an immediate increase in oxygen uptake by slices with low endogenous sugar level. The respiration stimulated by sucrose addition was more resistant to cyanide than the basal respiration and it was inhibited by SHAM. It is concluded that the operation of the alternative pathway is responsible for the increased oxygen uptake by the cold-grown winter rape leaves and it may be induced by an increased sugar supply for respiratory processes.     

High scleroglucan production by Sclerotium rolfsii: Influence of medium composition

Scleroglucan production by Sclerotium rolfsii was markedly affected by the C-source concentration, showing a highest value with 150 g sucrose l–1. Production was also influenced by the N-source, being considerably higher in media containing NO3– than in those containing NH4, which had a clear inhibitory effect. Once defined the optimum culture medium composition, the highest exopolysaccharide production (ca. 26 g scleroglucan l–1) was achieved after 72 h of fermentation at shake flask scale. High values of yield (Yp/c = 0.49), productivity (Pr = 0.365 g l–1 h–1) and specific productivity (Pr/x = 0.031 g (g biomass)–1 h–1) were observed, and productivity was 1.5 times further increased by scalling-up to fermenter scale. Addition of L-threonine, sunflower oil and ascorbic acid diminished exopolysaccharide production. © Rapid Science Ltd. 1998     

Possible role of adenylates in the engagement of the cyanideresistant pathway in nutrient-starved Catharanthus roseus Cells

In Cathuranthus roseus (L.) G. Don cells the cyanide-resistant pathway is engaged after phosphate or nitrogen starvation. Re-addition of these nutrients disengaged it again. Re-addition of phosphate leads to a transient disengagement which becomes only permanent after a second addition of phosphate. Disengagement after re-addition of nitrogen is slow: it takes 9 days before the activity has disappeared. In this system the mechanism of engagement of the cyanide-resistant pathway was studied. Addition of phosphate to phosphate-starved cells induced cell division within 24 h. The disengagement of the cyanide-resistant pathway was probably only an indirect effect of phosphate because the cellular P, content, which increased rapidly after addition, was low again before the cyanide-resistant pathway was disengaged. A better correlation was observed between high ADP and adenylate content of the cells and disengagement of the cyanide-resistant pathway. In addition it appeared that the engagement of the cyanide-resistant pathway was not the result of a limited carrier capacity of the cytochrome pathway. It is tentatively concluded that the engagement of the cyanide-resistant pathway in phosphate-starved cells was the result of a limited adenylate content. After nitrogen addition to N-starved cells, it took 5 days until the first growth occurred. Before the cyanide-resistant pathway was disengaged, its activity increased with the increased respiration rate which preceded growth. Within 72 h a higher ADP content was observed, which was still high after 10 days. The stimulation of the cytochrome pathway by uncoupler was small and more or less the same with and without added nitrogen, as long as the cyanide-resistant pathway was engaged. After disengagement the stimulation by uncoupler was significantly larger. It is suggested that the engagement during N-starvation was the result of a limited carrier capacity of the cytochrome pathway. Stimulation of the metabolism by re-addition of phosphate, nitrogen or sucrose resulted in a rapid increase in the levels of uracil nucleotides and uridine diphosphoglucose (UDPG) which are involved in sucrose metabolism.     

Biosynthesis of fructo-oligosaccharides by<Emphasis Type="Italic"> Sporotrichum thermophile</Emphasis> during submerged batch cultivation in high sucrose media

Biosynthesis of fructo-oligosaccharides (FOS) was observed during growth of the thermophilic fungus Sporotrichum thermophile on media containing high sucrose concentrations. Submerged batch cultivation with the optimum initial sucrose concentration of 250 g/l allowed the production of 12.5 g FOS/l. The FOS mixture obtained was composed of three sugars, which were isolated by size-exclusion chromatography. They were characterized by acid hydrolysis and HPLC as 1-kestose, 6-kestose and neokestose. The mechanism of osmotic adaptation of S. thermophile was investigated and sugars and amino acids were found to be the predominant compatible solutes. The fungus accumulated glutamic acid, arginine, alanine, leucine and lysine, in order to balance the outer osmotic pressure. Fatty acid analysis of the membrane lipids showed a relatively high percentage of unsaturated lipids, which is known to be associated with high membrane fluidity.     

Production of beta-fructofuranosidase with transfructosylating activity for fructooligosaccharides synthesis by Aspergillus japonicus NTU-1249.

Microbial beta-fructofuranosidases with transfructosylating activity can catalyze the transfructosylation of sucrose and synthesize fructooligosaccharides. Aspergillus japonicus NTU-1249 isolated from natural habitat was found to produce a significant amount of beta-fructofuranosidase with high transfructosylating activity and to have the potential for industrial production of fructooligosaccharides. In order to improve it's enzyme productivity, the medium composition and the cultivation conditions for A. japonicus NTU-1249 were studied. A. japonicus NTU-1249 can produce 83.5 units of transfructosylating activity per ml broth when cultivated in a shaking flask at 28 degrees C for 72 hours with a modified medium containing 80 g/l sucrose, 15 g/l soybean flour, 5 g/l yeast extract and 5 g/l NaCl at an initial pH of 6.0. The enzyme productivity was also optimized by submerged cultivation in a 5-litre jar fermentor with aeration at 1.5 vvm and agitation at 500 rpm. Under these operating conditions, the productivity of transfructosylating activity increased to 185.6 U/ml. Furthermore, the transfructosylating activity was improved to 256.1 U/ml in 1,000-litre pilot-scale fermentor. Enzymatic synthesis of fructooligosaccharides by beta-fructofuranosidase from A. japonicus NTU-1249 was performed in batch type by adding 5.6 units of transfructosylating activity per gram of sucrose to a 50% (w/v) sucrose solution at pH 5.0 and 50 degrees C. The yield of fructooligosaccharides was about 60% after reaction for 24 hours, and the syrup produced contained 29.8% (w/v) fructooligosaccharides, 15.2% (w/v) glucose and 5.0% (w/v) sucrose.     

Optimization of fermentation conditions for production of exopolysaccharide by Bacillus polymyxa

Production of exopolysaccharide (EPS) from a strain of Bacillus polymyxa was studied. Sucrose and potassium nitrate were found to be efficient carbon and nitrogen sources, respectively, for the production of the EPS. EPS production increased with the increase of sucrose concentration, probably due to the facilitated carbon uptake. Optimal pH was 7–8, and a sufficient supply of oxygen was needed for the EPS production. It was noted that the EPS synthesis by this B. polymyxa was growth-associated, indicating that a sufficient supply of nutrients was required for a high production of the EPS. As high as 54?g/l of EPS with a yield of 63% (g EPS/g sucrose) was obtained in 48?h of fed-batch cultivation with intermittent feeding of sucrose and potassium nitrate.     

干旱胁迫对小麦幼苗抗氰呼吸和活性氧代谢的影响

研究了干旱胁迫对抗旱性强弱不同的两种小麦幼苗的抗氰呼吸和活性氧代谢的影响。干旱胁迫导致了两种小麦抗氰呼吸活性及基因转录水平的下降,但抗旱品种在轻度干旱胁迫下表现出一定的适应能力,其抗氰呼吸活性及基因转录水平均高于不抗旱品种。干旱胁迫下,对干旱敏感的小麦幼苗叶片中活性氧含量高于抗旱小麦;3种抗氧化酶的活性低于抗旱小麦的3种抗氧化酶的活性。据此认为,严重的干旱胁迫引起活性氧含量的增加扰动了活性氧与抗氰呼吸之间的应答平衡,但抗氰呼吸可能通过清除活性氧等机制而起了抗旱的作用。     

培养条件对双歧杆菌EPS各组分产量及比例的影响

【目的】动物双歧杆菌RH产生的胞外多糖(exopolysaccharides, EPS)经阴离子交换柱层析可获得EPSa和EPSb两个组分。得到可提高EPS的总产量, 尤其是EPSb产量的最佳培养基和培养条件。【方法】对培养基类型、氮源、碳源、碳源浓度、培养基初始pH值、培养温度和时间对双歧杆菌EPSa和EPSb产量的影响进行分析。【结果】在初始pH值调整为7.0的含5%蔗糖的PTYG培养基上, 在35 °C温度下厌氧培养60 h时动物双歧杆菌RH的EPSa和EPSb产量分别为0.982±0.003 g/L和0.312±0.001 g/L。【结论】在上述条件下EPS总产量高且可获得较多的EPSb。     

Effect of aeration on lysine biosynthesis in nutrient media with different concentrations of components]

The lysine synthesis by the culture M. glutamicus T-3 on nutrient media with varying molasses concentrations was studied during cultivation under different aeration conditions. With an increase in the nutrient concentration the relationship between the lysine yield and aeration rate became very manifest. An elevation of aeration (Kv) from 1.2 to 6.3 g O2 1/hr increased the yield of lysine in the 15, 20 and 28% molasses medium by 3, 6 and 11 times, respectively. A decline in aeration decreased the biomass yield and increased the content of lactic acid and alanine in the culture liquid (to 19 and 4 g/l, respectively). The rate of respiration of the culture in the filtrate of the culture liquid measured in the Warburg apparatus depended on the cell age and molasses concentration in the nutrient medium and not on the aeration rate.     

Effect of oleic acid and Tween-80 on lysine synthesis by the culture Corynebacterium glutamicum]

The effect of oxidized and unoxidized oleic acid and Tween-80 on the growth and lysine synthesis by the producers C. glutamicum strains 95, 8, 28 was investigated. Surface active substances like oxidized and unoxidized oleic acid and Tween-80 during cultivation of the lysine producers on the glucose medium (the synthetic medium) and the medium with molasses and corn extract either inhibited the culture growth, thus reducing lysine yield, or accelerated the culture growth, thus increasing lysine yield. Oxidized and unoxidized oleic acid produced the greatest effect when added to the nutrient medium on the 48th cultivation hour. The increment of synthesized lysine was 120-150% of the control. Tween-80 proved to be very effective when added at early stages of fermentation (20 hours).     

Influence of nitrogen and phosphorus on induction embryogenic callus of sorghum

Crown and leaf slices of in vitro plantlets of a non-flowering Vetiveria zizanioides from Java were used to induce compact calli and to regenerate plantlets. The influence of different growth regulators (2,4-dichlorophenoxy acetic acid, 6-benzylaminopurine), sucrose concentrations (10–100 g l⁻¹), cultivation in light or dark, and cultivation time on callus induction medium (6 or 12 weeks), on the induction of compact callus and the subsequent regeneration of plantlets was studied. Up to 75% of crown slices cultured on modified Murashige and Skoog medium supplemented with 2.26 μM 2,4-dichlorophenoxy acetic acid, 2.22 μM 6-benzylaminopurine and 75 g l⁻¹ sucrose developed compact callus. For subsequent regeneration of plantlets, callus induction in the light for 6 weeks on the callus induction medium containing 10 g l⁻¹sucrose, and subsequent transfer to the regeneration medium, was the best procedure, regenerating plantlets on around 60% of the crown or leaf slices, with up to 100 plantlets per slice. We have compared the efficiency of the above mentioned procedure with several other methods to regenerate plantlets. Our findings indicate that the procedure developed in this study was best in regenerating plantlets for the used vetiver variant. This revised version was published online in June 2006 with corrections to the Cover Date.