Oxidation of terfenadine by Streptomyces platensis: Influence of culture medium on metabolite formation

The biotransformation of terfenadine into a primary alcohol, hydroxyterfenadine, followed by its oxidation to an acid, fexofenadine, was investigated using Streptomyces platensis cells. Time-courses of metabolite formation were established, and the results underlined the modulation of the alcohol to acid formation ratio according to culture conditions. Optimization of the hydroxylation step (pH, temperature, culture medium composition) led to the preparation of hydroxyterfenadine with a good yield (51%) using cells grown in culture medium without soybean peptone. In contrast, when incubations were performed with cells cultured in a medium containing soybean peptone, the alcohol to acid formation ratio decreased. The efficiency of the conversion to fexofenadine was shown to depend on the age of the cells, thus suggesting the induction of an oxidative activity. Both the hydroxylation reaction and the following two-oxidation steps leading to the acid seemed to depend on oxygen.     

Biooxidation of methyl group: Part 2. Evidences for the involvement of cytochromes P450 in microbial multistep oxidation of terfenadine

The actinomycete Streptomyces platensis grown in culture medium containing soybean peptones can transform terfenadine, an antihistamine drug, into its active metabolite fexofenadine. The microbial oxidation of methyl group of terfenadine into carboxylic acid could be an alternative to chemical ways to produce fexofenadine. This bioconversion requires three oxidation steps: a hydroxylation of one methyl group followed by the oxidation of the corresponding alcohol into the aldehyde and finally its oxidation into the carboxylic acid. The oxidation reaction of each step has been studied. Terfenadine and intermediates incubated with whole cells were not oxidized under argon whereas their biotransformation under ¹⁸O₂-enriched atmosphere gave labeled fexofenadine. P450 inhibitors, such as clotrimazole or fluconazole, inhibited oxidation activity of each step. While the two last steps could be catalyzed by dehydrogenases or oxidases, this study strongly demonstrates the role of at least one, or possibly several cytochromes P450, in the oxidation of terfenadine into fexofenadine by S. platensis cells. To our knowledge, this is one of the few examples of involvement of P450s in such three steps oxidation of a xenobiotic.     

A new approach of pellet formation of a filamentous fungus -Rhizopus oryzae

The effects of inoculum and medium composition (i.e. potato dextrose broth as carbon source, soybean peptone, calcium carbonate, and metal ions) on pellet formation of Rhizopus oryzae ATCC 20344 have been studied. Metal ions were found to have a significant negative effect on pellet formation while soybean peptone had a positive effect. In addition, potato dextrose broth and calcium carbonate were beneficial to R. oryzae for growing small, smooth pellets during the culture. The study also demonstrated that an inoculum size of less than 1.5x10(9)spores/L had no significant influence on pellet formation although it had large impacts on pellet growth. Thus, a new approach to form pellets has been developed using only potato dextrose broth, soybean peptone, and calcium carbonate allowing for pellet size to be controlled by adjusting inoculum size and the concentrations of potato dextrose broth, soybean peptone, and calcium carbonate in the medium.     

Optimization of fumaric acid production by Rhizopus delemar based on the morphology formation

The effects of temperature, agitation rate and medium composition, including concentrations of glucose, soybean peptone, and inorganic ions, on pellet formation and pellet diameter of Rhizopus delemar (Rhizopus oryzae) NRRL1526 during pre-culture were studied. Inorganic ions and soybean peptone had negative and positive effects on pellet formation, respectively. The initial glucose and soybean peptone concentrations directly affected pellet diameter. Within a certain range, pellet diameter decreased with increased initial substrate concentrations; however, above this range there was an opposite trend. Thus, optimal concentrations of substrate during pre-culture were beneficial for producing small pellets of R. delemar. Furthermore, dry cell mass and yield of fumaric acid tended to increase with decreased pellet diameter. Based on the pellet morphology optimization, the final fumaric acid concentration was improved by 46.13% when fermented in a flask and 31.82% in stirred bioreactor tank fermentation.     

Microbial oxidation of terfenadine and ebastine into fexofenadine and carebastine

The oxidation of tert-butyl-phenyl group of title compounds by some microorganisms was studied. We have optimized the conditions of culture to increase the formation of acid metabolites and to avoid the formation of side products. We showed that an oxidative activity is induced by soybean peptones in Streptomyces platensis. The biologically active compounds, fexofenadine and carebastine, are produced in good yield (86-95%) by Absidia corymbifera.     

营养条件对光滑球拟酵母发酵生产丙酮酸的影响

丙酮酸是多种氨基酸、维生素及其它有用物质的重要前体,广泛应用于化工、制药及农用化学品工业。能够直接发酵生产丙酮酸的菌种主要有Ａｃｉｎｅｔｏｂａｃｔｅｒ[1],Ｅｎｔｅｒｏｂａｃｔｅｒ[2],Ｅｎｔｅｒｏｃｏｃｃｕｓ[3],Ｅｓｃｈｅｒｉｃｈｉａ[4],Ａｇａｒｉｃｕ?..     

恶臭假单胞菌NA-1菌体培养转化和静息细胞转化联合工艺生产6-羟基烟酸研究

现有微生物羟基化烟酸采用的是静息细胞转化工艺。但研究揭示,恶臭假单胞菌NA-1(Pseudomonas putidaNA-1)在培养过程中不降解发酵液中由诱导剂烟酸转化形成的6-羟基烟酸,这是由于烟酸的存在抑制了羟基烟酸降解酶的作用,而不是因为细胞停止生长不利用羟基烟酸的缘故。因而尝试利用菌体诱导培养过程进行烟酸转化生产,建立了一种新的生产工艺,即菌体培养转化和静息细胞转化联合工艺。该工艺在恶臭假单胞菌NA-1培养过程中持续补充烟酸以维持1%(W/V)浓度,使烟酸被生长细胞转化为羟基化烟酸并在发酵液中线性积累,而不被进一步降解;培养转化结束后,发酵液中的静息细胞依然拥有很高的羟基化酶活力,能够再次用于转化反应。该联合转化工艺与传统的静息细胞转化工艺相比,不仅节约了诱导剂烟酸,而且6-羟基烟酸的产量提高了65%。     

Optimization of a cultural medium for bacteriocin production by Lactococcus lactis using response surface methodology.

The medium composition for bacteriocin production by Lactococcus lactis ATCC 11454 was optimized using response surface methodology. The selected six factors based on CM medium were sucrose, soybean peptone, yeast extract, KH(2)PO(4), NaCl, and MgSO(4).7H(2)O. Fractional factorial designs (FFD) and the path of steepest ascent were effective in searching for the main factors and approaching the optimum region of the response. By a 2(6-2) FFD, sucrose, soybean peptone, yeast extract, KH(2)PO(4) were found to be significant factors and had positive effects on cell growth, however, only soybean peptone and KH(2)PO(4) were shown to be the two significant factors for bacteriocin production and had negative and positive effects, respectively. The effects of the two main factors on bacteriocin production were further investigated by a central composite design and the optimum composition was found to be 1% sucrose, 0.45% soybean peptone, 1% yeast extract, 2.84% KH(2)PO(4), 0.2% NaCl, and 0.02% MgSO(4) x 7H(2)O. The optimal medium allowed bacteriocin yield to be doubled compared to CM medium.     

Intestinal microflora and bile acids. In vitro cholic acid transformation by mixed fecal culture of rats.

In vitro cholic acid (CA) transformation by mixed fecal culture was investigated. Concentrations of glucose, peptone, and yeast extract in the medium and the initial pH of the medium markedly affected the CA transformation. Yeast extract enhanced the transformation, whereas high concentrations of glucose and peptone inhibited it. When the initial pH of the medium was below 6.5, CA was converted to 7-keto-deoxycholic acid (7KD), and formation of deoxycholic acid (DC) was not observed. In contrast, with an initial pH of 7.0, about 60% of the CA was converted to 7KD after 3 days of incubation, and then DC gradually formed after 4 days of incubation, following the disappearance of 7KD. The formation of DC in the cultured samples was paralleled in each case by disappearance of 7KD. In pure culture systems, Escherichia coli and some strains of Bacteroides formed 7KD from CA. No DC formation was observed in pure cultures of any of the strains examined.     

细菌素发酵培养基的优化及动力学初步分析

用响应面方法对Lactococcus lactis生产细菌素乳链菌肽的培养基进行了优化。首先用部分重复因子实验对培养基组份蔗糖,大豆蛋白胨,酵母粉,KH₂PO₄,NaCl,MgSO₄·7H2O对乳链菌肽的影响进行评价,并找出主要影响因子为大豆蛋白胨和磷酸二氢钾,前者为负影响,后者为正效应,其它组份对乳链菌肽产量的影响不显著。第二步用最陡爬坡路径逼近最大响应区域。最后用中心组合设计及响应面分析确定主要影响因子的最佳浓度。菌株在优化培养基中的乳链菌肽产量增加1倍为2150(IU/mL)。动力学分析表明,菌株生长与细菌素的产生为部分耦联型,进入对数中期菌体比生长速率和细菌素比产率在优化培养基中均大于优化前培养基。     

Localization of Polyvinyl Alcohol Oxidase Produced by a Bacterial Symbiont, Pseudomonas sp. Strain VM15C

An axenic culture of a polyvinyl alcohol (PVA)-degrading symbiont, Pseudomonas sp. strain VM15C, was established on PVA with a crude preparation of the growth factor (factor A) produced by the symbiotic partner Pseudomonas putida VM15A. An increase of factor A in the culture medium enhanced the cell-associated PVA oxidase activity as well as the growth rate, but decreased production of extracellular PVA oxidase. PVA oxidase in cells grown on PVA was present in the periplasmic space at a higher ratio than in cells grown on peptone. PVA degradation occurred rapidly with washed cells. PVA was also degraded by immobilized cells entrapped in agar gels.     

Pseudogymnoascus roseus的生物学特性及液体发酵培养基的筛选

分离自冬虫夏草子座的子囊菌, 产生大量具网状包被的子囊果。其代表菌株Pseu-F经形态学及分子鉴定, 确定为Pseudogymnoascus roseus。该菌株的适宜生长温度为17.5 °C?20.0 °C; 用正交试验法对该菌株进行了液体发酵培养基筛选试验, 试验因素包括马铃薯、黄豆、蔗糖+葡萄糖、蛋白胨、酵母膏、矿物盐、维生素等, 筛选出的优化液体发酵培养基为(g/L): 蔗糖20+葡萄糖10, 蛋白胨10, 酵母膏5, 黄豆50, 马铃薯100。     

Microbial production of 6-hydroxynicotinic acid,an important building block for the synthesis of modern insecticides

Production of 6-hydroxynicotinic acid, an important starting material for the synthesis of modern pesticides through bacterial position-specific hydroxylation of nicotinic acid, was investigated. Resting cells of Serratia marcescens IFO 12648 were found to catalyze the potential hydroxylation activity of nicotinic acid to produce 6-hydroxynicotinic acid. The optimum culture conditions of S. marcescens IFO 12648 for the accumulation of 6-hydroxynicotinic acid were investigated. The addition to the culture medium of molybdenum and iron ions and of nicotinic acid as an inducer greatly enhanced the hydroxylation activity. Under the optimum conditions, 98.5% of the added 2.2 M nicotinic acid was converted to 6-hydroxynicotinic acid, and the highest yield achieved was 301 g of 6-hydroxynicotinic acid per liter of reaction mixture containing 3.98 g dry weight of resting cells during a 72-h reaction at 35°C.     

Ribonuclease production by free and immobilizedAspergillus clavatus cells

Several fungal strains ofAspergillus andPenicillium were immobilized by cryopolymerization in polyvinyl alcohol cryogel beads.Aspergillus clavatus was the best producer of extracellular ribonuclease. Enzyme productivity and growth of free and immobilized cells in shake flasks and agitated bioreactor were studied. Ribonuclease production and growth behaviour depended on concentrations of glucose, peptone and soybean in the culture medium. Enzyme production was influenced by agitation and aeration intensity. In repeated batch, shake-flask cultures, the immobilized cells showed 2 to 3.5 times higher enzyme activity than free cells. The optimal conditions in a bioreactor were at 150 rev/min agitation speed and 0.5 vol/vol.min aeration. Enzyme productivity of immobilized cells (237 units/g dry mycelium.h) was 2.1 times higher than the productivity of free cells in a bioreactor, and 2.3 times higher than that of a shake-flask culture.R.J. Manolov is with the Institute of Microbiology, Department of Enzymes, Bulgarian Academy of Sciences, Georgy Bonchev Street 26, 1113 Sofia, Bulgaria.     

Optimization of medium composition for actinomycin X2 production by <Emphasis Type="Italic">Streptomyces </Emphasis><Emphasis Type="Italic">spp</Emphasis> JAU4234 using response surface methodology

The effects of cultivation medium compositions including soybean meal, peptone, soybean oil and cornstarch for actinomycin X2 production by Streptomyces spp JAU4234 were accessed by using response surface methodology. The 2(4) full factorial designs and the paths of steepest ascent were effective in searching for the major factors of actinomycin X2 production. In this study, cornstarch and soybean oil showed negative effect on actinomycin X2 production based on the first-order regression coefficients derived from MINITAB software. Subsequently, a central composite design for optimization was further investigated. Preliminary studies showed that soybean meal and peptone were believed to be the major factors for actinomycin X2 production. Estimated optimum compositions for the production of actionmycin X2 were as follows (g/l): soybean meal 21.65 and peptone 9.41, and result in a maximum actionmycin X2 production of 617.4 mg/l. This value was closed to the 612 mg/l actionmycin X2 production from actual experimental observations. The yield of actionmycin X2 was increased by 36.9% by culturing the strain Streptomyces spp JAU4234 in the nutritionally optimized fermentation medium.     

Effect of biofilm formation by Pseudoalteromonas spongiae on induction of larval settlement of the polychaete Hydroides elegans

The effects of culture conditions and chloramphenicol treatment on the induction of the marine bacterium Pseudoalteromonas spongiae to larval settlement of Hydroides elegans were investigated. The results showed that P. spongiae cells grown in the medium containing both yeast extract and peptone (YP-grown P. spongiae) was highly inductive to larval settlement, whereas P. spongiae cells grown in the medium containing only peptone (P-grown P. spongiae) or YP-grown P. spongiae cells treated with chloramphenicol at the onset of biofilm development (YPC-grown P. spongiae) did not induce larval settlement. Analysis of biofilm formation, biofilm structure, and the surface protein profile indicated that only the induction-capable YP-grown P. spongiae formed a well-developed biofilm, while the P-grown P. spongiae and the YPC-grown P. spongiae did not. We report here for the first time that bacterial biofilm formation was associated with its induction of larval settlement.     

Peptone,a low-cost growth-promoting nutrient for intensive animal cell culture

The effect of addition of peptone to serum-free and serum supplemented media for the growth of hybridoma cells in various systems was studied. Supplementation of defined medium with either proteose peptone or meat peptone resulted in significant increases in cell number and specific monoclonal antibody production in batch culture system. Other peptones were either inactive or less effective. In continuous culture, using medium supplemented with new born calf serum, the addition of peptone resulted in 125% and 150% increases in cell and antibody concentrations respectively. Similar increase in cell number (128%) was also obtained in spin-filter perfusion culture when medium was supplemented with peptone. By comparison, the substitution of a defined 1xMEM amino acids mixture resulted in only a 50% increase. At higher perfusion rates the cell number maintained in steady state using peptone supplement could be increased to 1.3×10⁷ cells ml^–1 while the serum concentration was reduced from 5% to 1% at a perfusion rate of 2.5 volumes per day.     

Effect of nitrogen source and nitrogen concentration on the production of pyruvate by Torulopsis glabrata

The effect of nitrogen sources including yeast extract, peptone, soybean hydrolyzate and some inorganic nitrogen sources, as well as the nitrogen concentration on the fermentative production of pyruvate by Torulopsis glabrata WSH-IP12 was investigated. The addition of yeast extract greatly inhibited pyruvate accumulation, while peptone was shown to be the most favorable nitrogen source. In flask culture, 15 g l(-1) peptone was needed to consume 80 g l(-1) glucose with 23.4 g l(-1)of pyruvate accumulated. Pyruvate production was markedly dependent on the ratio of carbon to nitrogen (C:N), its production was improved by increasing the concentration of glucose and peptone proportionally and reduced by exclusively increasing the glucose concentration. In a glucose fed-batch culture, cell growth and pyruvate production slowed after 28 h. However, cell growth and pyruvate production recovered after further nitrogen, in the form of peptone and ammonium sulfate, was added to the culture. A final concentration of pyruvate of 54.5 g l(-1) was achieved at 64 h (yield to glucose consumed of 0.471 g g(-l)). By using aqueous ammonia instead of potassium hydroxide for pH control, 57.3 g l(-1) pyruvate with a yield of 0.498 g g(-1) was produced by 55 h. This result further indicates that nitrogen level plays an important role in the production of pyruvate.     

Biosynthesis of fusarochromanone and its monoacetyl derivative by Fusarium equiseti.

One fluorescent compound previously named TDP-2 was isolated and purified from a rice culture of Fusarium equiseti (Alaska 2-2). Mass spectral and nuclear magnetic resonance data indicated that it is a C-3'-N-acetyl derivative of fusarochromanone, a newly discovered mycotoxin. Time course studies of synthesis of these two compounds on autoclaved rice and Czapek-Dox medium enriched with soybean peptone indicated that fusarochromanone was converted to TDP-2 in the cultures. A high concentration of peptone in the liquid medium may stimulate both fusarochromanone synthesis and its conversion to TDP-2.     

Role of Ca2+ in t-PA production by human embryonic lung diploid fibroblast, IMR-90 cells, stimulated by proteose peptone

Proteose peptone (p.peptone) remarkably induced tissue plasminogen activator (t-PA) activity in the conditioned medium of confluently cultured human embryonic lung diploid fibroblast, IMR-90 cells, in a dose-dependent manner. t-PA activity correlated well with the amount of t-PA antigen found in the conditioned medium of IMR-90 cells stimulated by p.peptone. t-PA production by IMR-90 cells stimulated by p.peptone was dependent on extracellular Ca2+ concentration and maximum t-PA production required approximately 3.6 mM extracellular Ca2+. Conversely, elimination of Ca2+ from the culture medium by EGTA, Ca2+ chelate agent, strongly inhibited t-PA production induced by p.peptone. t-PA production induced by p.peptone was inhibited in a dose-dependent manner by Verapamil, which inhibits Ca2+ uptake through the slow channels and also by W-7, an inhibitor of calmodulin. These results suggested that influx of extracellular Ca2+ into IMR-90 cells was caused by p.peptone and induced t-PA production by the cells.