Transient self-inhibition of the growth of Lactobacillus delbrueckii subsp. bulgaricus in a pH-regulated fermentor

An industrial strain of Lactobacillus delbrueckii subsp. bulgaricus was grown in a synthetic medium on lactose as carbon substrate, in a pH-regulated fermentor. Growth proceeded in two distinct phases separated by a transient stationary phase. Various experimental approaches were used to identify the cause of this growth arrest. Growth experiments in L. bulgaricus culture supernatant fluids collected at different cultivation times in fermentor, and supplemented or not with various nutritional solutions, enabled us to discard the possibility of a nutritional limitation. Tube cultures of L. bulgaricus in medium supplemented with various lactic acid concentrations showed a potential inhibition by this metabolic end product but confirmed that this inhibition was not responsible for the cessation of growth. It was concluded that at least one inhibitory compound was produced during the growth phase of the strain, and this compound disappeared from the medium in the transient stationary phase, enabling the growth to start again later in the culture. Indeed, the stoichiometric analysis of the culture showed, firstly, that unidentified carbon compounds were produced from lactose during growth, which were probably converted in lactic acid during the transient stationary phase and, secondly, that part of the amino acids consumed gave catabolic end products. Finally, bacteriocin-like compounds were not considered to be responsible for this growth arrest.     

Comparison of batch culture growth and fermentation of a poultry Veillonella isolate and selected Veillonella species grown in a defined medium

The objective of this study was to develop a defined medium for quantitating nutritional requirements and fermentation products of a poultry cecal isolate of Veillonella and to compare these parameters with representative Veillonella species. The poultry isolate is one of 29 organisms from a continuous-flow culture that has been shown to be effective against Salmonella colonization in broilers. When the Veillonella species were grown in anaerobic batch culture, propionate and acetate were the only volatile fatty acids detected. Lactate was needed to provide energy for the growth of the Veillonella in the defined medium. The poultry isolate had significantly (p< 0.05) higher Y(lactate)(g of dry cell weight per mole of lactate utilized) and dry cell weight than the other Veillonella species when grown on amino acid supplemented defined media. Cultures of the Veillonella species in the defined medium grown with supplemented amino acids aspartate, threonine, arginine, and serine indicated that these amino acids were metabolized to acetate and propionate. Amino acid analysis on media inoculated with either V. atypica or the poultry isolate also indicated that these organisms may have different amino acid preferences. For nearly all of the amino acid supplemented media combinations the poultry isolate utilized significantly (p< 0.05) more threonine and serine whereas V. atypica utilized significantly (p< 0.05) more aspartate. The defined medium supported growth of all of the Veillonella species tested and should enable further in-depth physiological studies to be conducted on the poultry Veillonella studies.     

Characteristics and identification of bacteriocins produced by Lactococcus lactis subsp. lactis 194-K

The Lactococcus lactis subsp. lactis 194-K strain has been established to be able to produce two bacteriocins, one of which was identified as the known lantibiotic nisin A, and the other 194-D bacteriocin represents a polypeptide with a 2589-Da molecular mass and comprises 20 amino acid residues. Both bacteriocins were produced in varying proportions in all of the studied culture media, which support the growth of the producer. Depending on the cultivation medium, the nisin A content was 380- to 1123-fold lower in the 194-K stain culture broth than that of the 194-D peptide. In comparision to nisin A Bacteriocin 194-D possessed a wide range of antibacterial activity and suppressed the growth of both Gram-positive and Gram-negative bacteria. An optimal medium for 194-D bacteriocin synthesis was shown to be a fermentation medium which contained yeast extract, casein hydrolysate, and potassium phosphate. The biosynthesis of bacteriocin 194-D by the 194-K strain in these media occurred parallel to producer growth, and its maximal accumulation in the culture broth was observed at14–20 h of the strain’s growth.     

Alcoholic fermentation of cellulose hydrolysate by Zymomonas mobilis

Summary Growth and ethanol production by three strains of the bacterium Zymomonas mobilis were tested, at 40°C, in a medium containing cellulose hydrolysate (hexose fraction) as carbon source. The thermotolerant mutant C107 exhibited the best growth compared to wild type ZM4 and to the osmotolerant mutant SBE15. When cultivated in media supplemented with various nutrients, growth was only observed in presence of yeast extract (10 g/l) which acted both as a vitamin supplier and pH stabilizer. Using calcium pantothenate instead of yeast extract and sodium acetate to control pH resulted in growth inhibition by the high medium osmolality. Batch fermentation with pH control (KOH addition) showed good growth and ethanol production with the mineral medium.     

Batch culture kinetics of l-lactate fermentation employing Streptococcus sp. IO-1

We isolated a l-lactate producing cocci which grows at 37°C as the optimal temperature and pH of 7.0 that is capable of converting glucose to l-lactate with a conversion rate greater than 90%. No other stereochemical isomer of lactic acid was detected in the culture broth by enzymatic analysis. The fermentation exhibits typical end product inhibition and this was confirmed by culturing using medium to which 1% lactate was supplemented as the initial inhibitor. Numerical analysis of the cultures which were carried out at different initial sugar concentrations showed that the specific rates for growth, substrate consumption and lactate formation could be expressed using uncompetitive inhibition formulae. Using these equations, it may be possible to estimate the cell density, remaining sugar concentration and product formation at any phase of the batch fermentation without operation.     

Regulation of proteinase synthesis in Lactococcus lactis

The synthesis of extracellular serine proteinase of Lactococcus lactis was studied during the growth in a batch and a continuous culture on chemically defined media. In a batch culture the proteinase synthesis started during the exponential phase of growth and the highest proteinase concentrations were found at the end of the exponential and beginning of the stationary phase of growth. During the growth in a lactose-limited chemostat with amino acids as the sole source of nitrogen, the specific rate of proteinase synthesis was maximal at a μof 0.23 h^?1. At higher growth rates the proteinase productin declined. The proteinase synthesis was dependent on the amino acid sources in the medium. In batch cultures of L. lactis grown on a chemically defined medium with amino acids, the proteinase production was increased four-fold compared to media containing casein or a tryptic digest of casein as the sole source of nitrogen. The inhibition of the rate of proteinase synthesis by casein and peptides was also observed during the growth in a chemostat. The addition of the dipeptide leucylproline (final concentration of 100 μM) to a lactose-limited continuous culture during the steady state (D = 0.23 h^?1) resulted in a transient inhibition of the rate of proteinase synthesis. This suggested that exogenously supplied peptides control the regulation of proteinase synthesis of L. lactis.     

Growth and acid production by Lactobacillus (L) delbrueckii in a dialysis culture system

Growth and lactic acid production by L. delbrueckii was studied in a dialysis culture system and the inhibitory effect of lactate confirmed by removing lactate from the culture medium by dialysis. It has been shown that lactate inhibits growth after the log phase and that the maintenance of low lactate concentrations after this point permits higher specific growth rates and higher maximum cell concentrations. Acid production is also significantly higher in a dialysis culture system. Finally, a modification of the Luedeking-Piret model, incorporating the lactate inhibition effect, is proposed.     

Ruminal Fermentation and Sugar Concentrations

The maximal amounts of growth of Selenomonas ruminantium were examined in the media containing various amounts of glucose. The yields of cells per unit weight of glucose are linear functions to glucose concentrations in the ranges between zero to 0.005% and 0.005 to 0.7%, Cell yields per glucose are greater in the former range, indicating greater a-mounts of energy are available per glucose at lower concentrations. Growth responses in lactate media containing various amounts of glucose showed that the preincubation with larger amounts of glucose is inhibitory for the following growth and metabolism of lactate. The organism produces predominantly lactate in the glucose medium. However, volatile fatty acid productions increase when the initial concentrations of glucose become low. Isotopic studies showed that the lactate utilization yielding volatile fatty acids is inhibited by the preceding metabolism of high concentrations of glucose. These results were discussed with regard to normal and abnormal fermentations in the rumen.     

Effect of environmental conditions on the production of two extracellular proteolytic enzymes byVibrio SA1

The production of two extracellular proteases, an endopeptidase and an aminopeptidase, by the marine bacteriumVibrio SA1 was studied in batch cultures. The production of the proteases was induced during growth of the organism in peptone media and by several amino acids during growth in minimal media. It was repressed by easily metabolisable carbon compounds such as glucose, lactate and succinate during growth in peptone media. During growth in a lactate basal medium, phenylalanine was one of the best inducers and this amino acid was therefore used in further experiments. That lactate dit not repress the synthesis of the proteases during growth in the lactate basal medium supplemented with 2mm phenylalanine as an inducer, appeared to be a consequence of the low iron content of this medium. Growth curves ofVibrio SA1 on such media showed a period of linear growth during which protease production was observed. When the iron concentration was made sufficiently high to prevent linear growth, the synthesis of the proteases remained repressed. Apparently by imposing an iron limitation on the organism, catabolite repression by lactate was relieved. Similarly, when growth was limited by very low values of the dissolved oxygen tension in the medium, a high rate of protease synthesis was found which was immediately repressed when the oxygen limitation was released. The results indicate that the growth rate and/or a factor associated with the energy metabolism play a role in the regulation of the synthesis of the enzymes.This study was supported by the Foundation for Fundamental Biological Research (BION), which is subsidised by the Netherlands Organization for the Advancement of Pure Research (ZWO).     

Determination of amino acids in cell culture and fermentation broth media using anion-exchange chromatography with integrated pulsed amperometric detection

Cell culture and fermentation broth media are used in the manufacture of biotherapeutics and many other biological materials. Characterizing the amino acid composition in cell culture and fermentation broth media is important because deficiencies in these nutrients can reduce desired yields or alter final product quality. Anion-exchange (AE) chromatography using sodium hydroxide (NaOH) and sodium acetate gradients, coupled with integrated pulsed amperometric detection (IPAD), determines amino acids without sample derivatization. AE-IPAD also detects carbohydrates, glycols, and sugar alcohols. The presence of these compounds, often at high concentrations in cell culture and fermentation broth media, can complicate amino acid determinations. To determine whether these samples can be analyzed without sample preparation, we studied the effects of altering and extending the initial NaOH eluent concentration on the retention of 42 different carbohydrates and related compounds, 30 amino acids and related compounds, and 3 additional compounds. We found that carbohydrate retention is impacted in a manner different from that of amino acid retention by a change in [NaOH]. We used this selectivity difference to design amino acid determinations of diluted cell culture and fermentation broth media, including Bacto yeast extract-peptone-dextrose (yeast culture medium) broth, Luria-Bertani (bacterial culture medium) broth, and minimal essential medium and serum-free protein-free hybridoma medium (mammalian cell culture media). These media were selected as representatives for both prokaryotic and eukaryotic culture systems capable of challenging the analytical technique presented in this paper. Glucose up to 10mM (0.2%, w/w) did not interfere with the chromatography, or decrease recovery greater than 20%, for the common amino acids arginine, lysine, alanine, threonine, glycine, valine, serine, proline, isoleucine, leucine, methionine, histidine, phenylalanine, glutamate, aspartate, cystine, and tyrosine.     

尖顶羊肚菌液体培养基质与条件的研究

通过对尖顶羊肚菌液体培养基质与条件的研究,明确其菌丝生长的最适pH值、最适温度、适宜光照条件、适宜葡萄糖和蛋白胨浓度、适宜培养基,以便应用于尖顶羊肚菌液体菌种的生产和工业发酵。结果表明:菌丝的最适生长温度为2 5℃;最适生长pH值为6 ;葡萄糖和蛋白胨最适浓度分别为2 0 0g/L和10g/L ;菌丝在黑暗环境下生长良好,光照对菌丝生长具有抑制作用;用胡萝卜酵母膏培养基振荡培养形成的菌丝球多,菌丝生长量大;菌丝球在不同培养基中生长,可引起培养液pH值的上升或者下降;菌丝球可利用培养基内的氨基酸,使氨基酸降解,在胡萝卜酵母膏培养基中振荡培养8d的菌液总氨基酸含量较原液减少了36 71% ,亮氨酸、异亮氨酸和甲硫氨酸含量的下降幅度最大     

Strategies for fed-batch cultivation of t-PA producing CHO cells: substitution of glucose and glutamine and rational design of culture medium

A strategy for fed-batch cultivation of t-PA producing recombinant CHO cells is presented, based on the substitution of glucose and glutamine for slowly metabolized nutrients and in a rational design of the medium. Media for the batch and fed stages were based on the cell specific amino acid requirements, which allowed a more accurate determination of the initiation of the fed stage and the frequency of nutrient addition from then on. Salt concentration was also reduced in both media to avoid an increase in osmolality. As a consequence of this rational design, most amino acid did not accumulate significantly during the fed stage, as usually occurs when their supply is not based on cell requirements; also, lower amounts of by-products were obtained when osmolality level was kept low, that altogether increased viability, longevity and t-PA production when compared with a reference batch culture. Alternating glucose and galactose during the fed stage, allowed lactate detoxification of the cells through their own metabolism. This allowed an increase in cell growth and cell viability with respect to a fed-batch culture in which only glucose was used in the fed stage.     

Nutritional requirements and media development for Lactococcus lactis IL1403

Lactic acid bacteria are extensively used in food technology and for the production of various compounds, but they are fastidious in nutrient requirements. In order to elucidate the role of each component precisely, defined multicomponent media are required. This study focuses on determining nutrient auxotrophies and minimizing media components (amino acids, vitamins, metal ions, buffers and additional compounds) for the cultivation of Lactococcus lactis subsp. lactis IL1403, using microtitre plates and test tubes. It was shown that glutamine and asparagine were the most important media components for achieving higher biomass yields while the branched-chain amino acids were necessary to increase specific growth rate. The amino acid and glucose ratio was reduced to achieve minimal residual concentration of amino acids in the medium after the growth of cells, whereas the specific growth rate and biomass yield of cells were not considerably affected. As the percentage of each consumed amino acid compared to initial amount is larger than measurement error, these optimized media are important for achieving more precise data about amino acid utilization and metabolism.     

Rational development of a simple synthetic medium for the sustained growth of Lactococcus lactis

The growth of two strains of Lactococcus lactis subsp. lactis from vegetable (NCDO 2118) and dairy origin (IL 1403) were compared on various culture media. Both strains grew more rapidly on a complex organic medium than on a defined synthetic medium. The best growth was obtained under nitrogen gas phase. The single omission technique was applied to each component of a non-optimized synthetic medium in order to determine the true nutritional requirements. Requirements for macro-elements, oligo-elements, bases and vitamins were identical for the two strains. As expected, the dairy strain (IL 1403) was seen to be auxotrophic for some amino acids, whereas the vegetable strain (NCDO 2118) was seen to be prototrophic for all amino acids when using the single omission technique. Growth was then characterized on progressively simplified media and the composition of the absolute minimal media for the growth of both strains was defined. Sustained growth of the vegetable strain was only possible in minimal media supplemented with six amino acids (Glu, Met, Ile, Leu, Val, Ser), indicating that the definition of prototrophy/auxotrophy is partly dependent upon the medium composition. The dairy strain showed a requirement for Arg, His and Thr in addition to the six amino acids necessary for growth of the vegetable strain. The removal of ammonium salt from the medium did not affect the growth, illustrating that the amino acids may satisfy the totality of the nitrogen requirement for biomass synthesis.     

拟干酪乳杆菌发酵L-乳酸合成培养基的优化

为开发一种适合于乳酸发酵过程代谢流分析(MFA)的合成培养基,以拟干酪乳杆菌Lactobacillus paracasei为对象,考察主要营养成分对其生长和乳酸合成的影响.在合成培养基的优化过程中,先确定了影响菌体生长和乳酸合成的主要营养物质及其浓度范围,针对葡萄糖、混合氛基酸、核苷类物质、维生素等生长因子、混合磷源、CaCO3六大类营养成分,使用正交试验法先后设计了六因素五水平和四因素三水平正交试验以及氨基酸梯度试验和氨基酸缺失试验,得到了最佳培养基组成(1L):葡萄糖80g、醋酸钠2g、吐温-80 1 mL、柠檬酸氢二铵1g、金属离子0.72g、混合氨基酸3.925g、核苷类物质0.15g、维生素等生长因子0.075g、混合磷源0g、CaC03 35g.以半合成培养基为对照,考察优化后的合成培养基对菌体生长和乳酸合成的影响.结果表明,菌体在合成培养基中的乳酸产量、产率均比半合成培养基中高.这些结果为L.paracasei的代谢流定量研究莫定了基础.     

Mechanism of citrate metabolism in Lactococcus lactis: resistance against lactate toxicity at low pH

Measurement of the flux through the citrate fermentation pathway in resting cells of Lactococcus lactis CRL264 grown in a pH-controlled fermentor at different pH values showed that the pathway was constitutively expressed, but its activity was significantly enhanced at low pH. The flux through the citrate-degrading pathway correlated with the magnitude of the membrane potential and pH gradient that were generated when citrate was added to the cells. The citrate degradation rate and proton motive force were significantly higher when glucose was metabolized at the same time, a phenomenon that could be mimicked by the addition of lactate, the end product of glucose metabolism. The results clearly demonstrate that citrate metabolism in L. lactis is a secondary proton motive force-generating pathway. Although the proton motive force generated by citrate in cells grown at low pH was of the same magnitude as that generated by glucose fermentation, citrate metabolism did not affect the growth rate of L. lactis in rich media. However, inhibition of growth by lactate was relieved when citrate also was present in the growth medium. Citrate did not relieve the inhibition by other weak acids, suggesting a specific role of the citrate transporter CitP in the relief of inhibition. The mechanism of citrate metabolism presented here provides an explanation for the resistance to lactate toxicity. It is suggested that the citrate metabolic pathway is induced under the acidic conditions of the late exponential growth phase to make the cells (more) resistant to the inhibitory effects of the fermentation product, lactate, that accumulates under these conditions.     

Growth of Escherichia coli MG1655 on LB medium: monitoring utilization of sugars, alcohols, and organic acids with transcriptional microarrays

Microorganisms respond to environmental changes by reprogramming their metabolism primarily through altered patterns of gene expression. DNA microarrays provide a tool for exploiting microorganisms as living sensors of their environment. The potential of DNA microarrays to reflect availability of nutrient components during fermentations on complex media was examined by monitoring global gene expression throughout batch cultivation of Escherichia coli MG1655 on Luria-Bertani (LB) medium. Gene expression profiles group into pathways that clearly demonstrate the metabolic changes occurring in the course of fermentation. Functional analysis of the gene expression related to metabolism of sugars, alcohols, and organic acids revealed that E. coli growing on LB medium switches from a sequential mode of substrate utilization to the simultaneous one in the course of the growth. Maltose and maltodextrins are the first of these substrates to support growth. Utilization of these nutrients associated with the highest growth rate of the culture was followed by simultaneous induction of enzymes involved in assimilation of a large group of other carbon sources including D-mannose, melibiose, D-galactose, L-fucose, L-rhamnose, D-mannitol, amino sugars, trehalose, L-arabinose, glycerol, and lactate. Availability of these nutrients to the cells was monitored by induction of corresponding transport and/or catabolic systems specific for each of the compounds.     

Benchmarking of commercially available CHO cell culture media for antibody production

In this study, eight commercially available, chemically defined Chinese hamster ovary (CHO) cell culture media from different vendors were evaluated in batch culture using an IgG-producing CHO DG44 cell line as a model. Medium adaptation revealed that the occurrence of even small aggregates might be a good indicator of cell growth performance in subsequent high cell density cultures. Batch experiments confirmed that the culture medium has a significant impact on bioprocess performance, but high amino acid concentrations alone were not sufficient to ensure superior cell growth and high antibody production. However, some key amino acids that were limiting in most media could be identified. Unbalanced glucose and amino acids led to high cell-specific lactate and ammonium production rates. In some media, persistently high glucose concentrations probably induced the suppression of respiration and oxidative phosphorylation, known as Crabtree effect, which resulted in high cell-specific glycolysis rates along with a continuous and high lactate production. In additional experiments, two of the eight basal media were supplemented with feeds from two different manufacturers in six combinations, in order to understand the combined impact of media and feeds on cell metabolism in a CHO fed-batch process. Cell growth, nutrient consumption and metabolite production rates, antibody production, and IgG quality were evaluated in detail. Concentrated feed supplements boosted cell concentrations almost threefold and antibody titers up to sevenfold. Depending on the fed-batch strategy, fourfold higher peak cell concentrations and eightfold increased IgG titers (up to 5.8 g/L) were achieved. The glycolytic flux was remarkably similar among the fed-batches; however, substantially different specific lactate production rates were observed in the different media and feed combinations. Further analysis revealed that in addition to the feed additives, the basal medium can make a considerable contribution to the ammonium metabolism of the cells. The glycosylation of the recombinant antibody was influenced by the selection of basal medium and feeds. Differences of up to 50 % in the monogalacto-fucosylated (G1F) and high mannose fraction of the IgG were observed.     

In-vitro cleavage of a fusion protein bound to cellulose using the soluble yscFs (Kex2) variant

Summary Intra- and extracellular metabolite concentrations were determined for hybridoma cells grown in tissue culture flasks in batch culture. Significant differences were found for intracellular lactate and amino acid concentrations depending on the culture medium. AB2-143.2 cells cultivated in Dulbecco's modified Eagle's (DME) medium supplemented with 50 mm lactate exhibited intracellular lactate and glutamine levels of 40 mm and 4 mm, respectively, whereas cells grown in standard DME medium had low intracellular glutamine and 20 mm lactate concentrations. For cells cultivated in medium supplemented with 6 mm pyruvate, intracellular lactate levels were estimated at approx. 40 mm, but these cells also showed an increased intracellular alanine concentration of 22 mm. The higher alanine pools probably result from increased transamination of pyruvate under these conditions.     

Fermentation of bovine endothelial cells for preparation of endothelial cell-surface heparan sulphate

The polysaccharide chains of a proteoheparan sulphate located on the endothelial cell surface are responsible for athrombogenicity of blood vessel walls. Mass cultivation of endothelial cells is the only way to isolate adequate amounts of this proteoheparan sulphate. In order to establish a method for fermentation of bovine endothelial cells, colonization of microcarriers, growth phase and cultivation of confluent carriers were optimized. The colonization process was varied relative to the number of beads, number of cells, total volume and kind of vessel. Two basal media were tested at different serum contents by growth assays. The same basal media without serum were supplemented with mitogen, bovine lipoprotein, insulin and transferrin and tested by activity assays on confluent cultures. The best method yields more than 80% of the cells on microcarriers. During the fermentation glucose and lactate concentrations were measured at constant perfusion rate and glucose consumption and lactate production were determined. Under optimized conditions we achieved a final cell titre of 4 x 10(9) cells/l and a calculated cell density of 7-9 x 10(4) cells/cm2 offered substrate surface. The minimal doubling time of the cell culture was about 18 h under optimized fermentation conditions. Removal of the core-protein by enzymatic digestion or beta-elimination releases the endothelial cell surface heparan sulphate.