Influence of amino acids on the biosynthesis of cyclosporin A by Tolypocladium inflatum

 An indigenously isolated strain of Tolypocladium inflatum, when grown as a suspension culture in semi-synthetic and synthetic media, produced cyclosporin A. Biosynthesis of this well-known immunosuppressive agent was found to be influenced heavily by the external addition of the amino acid constituents of the molecule. In synthetic media, L-leucine and L-valine were found to act as strong inducers of drug production. L-Valine increased the specific production of cyclosporin A by 75% in semi-synthetic medium and by ten times in synthetic medium compared to an unsupplemented control culture. D-Valine had no stimulating effect on the production. The presence of amino acids in the exponential growth phase ensured optimal production, as was indicated in the experiment in which L-valine was added at different times; 4 g/l was the optimum concentration of exogenous L-valine. On the other hand, exogenous sarcosine and L-methionine tended to diminish drug production. Received: 23 October 1995/Received revision: 23 January 1996/Accepted: 29 January 1996     

Studies on Aspergilli XVI. Effect of pH,temperature, and carbon and nitrogen interaction

Summary The effect of pH, temperature, and carbon and nitrogen interaction on the growth and sporulation ofAspergillus nidulans (Eidam)Wint.,A. rugulosus Thom &Raper,A. variecolor (Berk. &Br.)Thom &Raper andA. quadrilineatus was studied. All the moulds could grow on a wide range of pH (2.0 to 12.0) but the growth was poor on too acid and too alkaline media. Best growth ofA. rugulosus, A. quadrilineatus, andA. violaceus was seen at pH 6.5 and that ofA. nidulans andA. variecolor at pH 7.0. In general maximum production of perithecia was recorded between pH 6.0 and 8.0.All the above species ofAspergillus under study could grow between a temperature range of 10° C–48° C, but the growth was poor at 10° C and 48° C. The present moulds showed good growth at 20° C, 25°C, and 30° C. At 40° CA. nidulans andA. rugulosus showed moderate growth while the rest of the Aspergilli attained good growth. Temperatures between 20° C–30° C favoured excellent perithecial production.In general, little improvement in growth was noted on media containing good carbon and nitrogen sources. Malic acid was found to be useless when supplied singly. But, poor growth was recorded when supplied in combination with amino acids, amide, and peptone. This was due to the fact that these N sources also supplied carbon for their metabolism.     

Influences of cultural medium component on the production of poly(γ-glutamic acid) byBacillus sp. RKY3

In this study, the cultural medium used for the efficient production of γ-PGA with a newly isolatedBacillus sp. RKY3 was optimized. It was necessary to supplement the culture medium withl-glutamic acid and an additional carbon source in order to induce the effective production of γ-PGA. The amount of γ-PGA increased with the addition ofl-glutamic acid to the medium. The addition of 90 g/Ll-glutamic acid to the medium resulted in the maximal yield of γ-PGA (83.2 g/L). The optimum nitrogen source was determined to be peptone, but corn steep liquor, a cheap nutrient, was also found to be effective for γ-PGA production. Both the γ-PGA production and cell growth increased rapidly with the addition of small amounts of K₂HPO₄ and MgSO₄·7H₂O.Bacillus sp. RKY3 appears to require Mg²⁺, rather than Mn²⁺, for γ-PGA production, which is distinct from the production protocols associated with other, previously reported bacteria.Bacillus sp. RKY3 may also have contributed some minor γ-PGA depolymerase activity, resulting in the reduction of the molecular weight of the produced γ-PGA at the end of fermentation.     

Preferential production of rapamycin vs prolylrapamycin by Streptomyces hygroscopicus

A trace of prolylrapamycin is often produced in rapamycin fermentations carried out by strains of Streptomyces hygroscopicus. Prolylrapamycin was produced as the major rapamycin when L-proline was added to the fermentation medium. Addition of proline plus thiazolidine-2-carboxylic acid (T2CA), a sulfur-containing proline analog, prevented rapamycin production and stimulated prolylrapamycin production, thereby resulting in an even greater selective production of prolylrapamycin. T2CA addition inhibited rapamycin production even in the presence of L-lysine which is converted into pipecolic acid intracellularly and normally stimulates rapamycin formation. Addition of the rapamycin precursor, DL-pipecolic acid, surprisingly failed to stimulate rapamycin production. However, when DL-pipecolic acid was added with L-proline, it reduced the formation of prolylrapamycin and stimulated rapamycin production; this was evident especially in the presence of T2CA. The evidence suggests that T2CA suppresses rapamycin production by inhibiting intracellular conversion of L-lysine into pipecolate. Furthermore, the data suggest that uptake of pipecolate into the cell is stimulated or induced by growth in the presence of L-proline and/or T2CA. Received 24 December 1997/ Accepted in revised form 12 May 1998     

Isolation and characterization of acetamidocinnamate acylase,a new enzyme suitable for production of l-phenylalanine

Summary A new acylase catalyzing the deacetylation of acetamidocinnamic acid (ACA) was found in strains of Brevibacterium sp. Such strains could be isolated from soil samples by their ability to grow on ACA as well as on l-phenylalanine. A 110-fold enrichment of the enzyme with an over-all yield of 48% was obtained in 4 steps resulting in an electrophoretically pure preparation of 28.6 U·mg^-1. Important enzymological data concerning the application of the enzyme are: K _M (ACA) 0.45 mM, pH-optimum 7.5, heat stability up to 52°C, molecular weight of 50.000 Dalton, two subunits. Deacetylation of ACA resulted in phenylpyruvate via the unstable enamine-imine derivative. Coupling the acylase with l-phenylalanine dehydrogenase proved to be an alternative route for l-phenylalanine production avoiding substrate inhibition by phenylpyruvate and its instability. The substrate specifity of ACA-acylase revealed that the enzyme probably acts as a dipeptidase in its biological function.Abbreviations ACA acetamidocinnamate, acetamidocinnamic acid - FPLC fast protein liquid chromatography - pheDH l-Phenylalanine dehydrogenase - HicDH Hydroxyisocaproate dehydrogenase - OD optical density - BSA bovine serum albumin - FDH formate dehydrogenase Dedicated to Professor Dr. H. J. Rehm on the occasion of his 60th birthday     

Screening and Optimization of Indole-3-Acetic Acid Production and Phosphate Solubilization from Rhizobacteria Aimed at Improving Plant Growth

A total of 216 bacterial strains were isolated from rice rhizospheric soils in Northern Thailand. The bacterial strains were initially tested for solubilization of inorganic phosphate, indole acetic acid (IAA) production, selected strains were then tested for optimized conditions for IAA production and whether these caused stimulatory effects on bean and maize seedling growth. It was found that all strains had solubilized inorganic phosphate (P), but only 18.05% produced IAA. The best IAA producer was identified by biochemical testing and 16S rDNA sequence analysis as Klebsiella SN 1.1. In addition to being the best IAA producer, this strain was a high P-solubilizer and produced the highest amount of IAA (291.97 ± 0.19 ppm) in culture media supplemented with l-tryptophan. The maximum production of IAA was achieved after 9 days of incubation. The culture requirements were optimized for maximum IAA production. The tested of IAA production by selected isolates was studied in a medium with 0, 0.1, 0.2, 0.5, 0.7, and 0.9% (v/v) l-tryptophan. Low levels (12.6 ppm) of IAA production was recorded without tryptophan addition. Production of IAA in Klebsiella SN 1.1 increased with an increase to 0.2% (v/v) tryptophan concentration. The production of IAA was further confirmed by extraction of crude IAA from this isolate and subsequent Thin Layer Chromatography (TLC) analysis. A specific spot from the extracted IAA production was found to correspond with a standard spot of IAA with the same R _f value. The Klebsiella strain SN 1.1 also demonstrated stimulatory effects on bean seedlings in vivo.     

Fermentation of seaweed sugars by Lactobacillus species and the potential of seaweed as a biomass feedstock

It is known that seaweeds differ greatly from land plants in their sugar composition. The current research on the L-lactic acid fermentation process focuses on land plant sugars as a carbon source, with the potential of seaweed sugars being largely ignored. This study examined the feasibility of seaweed biomass as a possible carbon source for the production of l-lactic acid, by comparing the fermentation of seaweed sugars (d-galactose, d-mannitol, l-rhamnose, d-glucuronic acid, and l-fucose) and land plant sugars (d-glucose, d-xylose, d-mannose, and l-arabinose). The experiments were repeated with 2 sugar acids (d-gluconic acid, d-glucaric acid) in order to investigate the effect of the degree of reduction of carbon source on the fermentation yield. This research also examined the effect of bacterial strain on the characteristics of fermentation reactions, by conducting l-lactic acid fermentation with 7 different Lactobacillus species. Taking into account the sugar composition of seaweed and the levels of lactic acid production from each pure sugar, it was possible to predict the lactic acid production yield of various seaweeds and land plants. From comparative analysis of the predicted lactic acid production yield, it was found that seaweeds are already comparable to lignocellulosics at the current stage of technology. If new technologies for the utilization of non-fermentable seaweed sugars are developed, seaweeds show promise as an even more useful biomass feedstock than lignocellulosics.     

Characterization of Enzymes in the Oxidation of 1,2-Propanediol to <Emphasis Type="SmallCaps">d</Emphasis>-(−)-Lactic Acid by <Emphasis Type="Italic">Gluconobacter oxydans</Emphasis> DSM 2003

Although Gluconobacter oxydans can convert 1,2-propanediol to d-(−)-lactic acid, the enzyme(s) responsible for the conversion has remain unknown. In this study, the membrane-bound alcohol dehydrogenase (ADH) of Gluconobacter oxydans DSM 2003 was purified and confirmed to be essential for the process of d-(−)-lactic acid production by gene knockout and complementation studies. A 25 percent decrease in d-(−)-lactic acid production was found for the aldehyde dehydrogenase (ALDH) deficient strain of G. oxydans DSM 2003, indicating that this enzyme is involved in the reaction but not necessary. It is the first report that reveals the function of ADH and ALDH in the biooxidation of 1,2-propanediol to d-(−)-lactic acid by G. oxydans DSM 2003.     

Histidine decarboxylase production by Lactobacillus hilgardii: Effect of organic acids

Histidine decarboxylase production from Lactobacillus hilgardii 5w, isolated from wine, was inhibited by the presence of l-malic acid in the basal culture medium. The inhibition was related to l-malic acid concentration. The maximal production of the enzyme at 12 h of culture incubated at 30°C was inhibited 71% by 2 g/L l-malic acid and 47% by 0.5 g/L. In these conditions l-malic acid consumption was 16% and 20% respectively. The addition of 300 mg/L citric acid to the basal medium stimulated the enzyme production from 9 to 45 nmoles/min/mg dry weight, and the increase was correlated with citric acid concentration. When different concentrations of l-malic acid were added to the basal medium plus 200 mg/L citric acid, reversion of stimulation was observed, achieving the maximum at a concentration of 2 g/L. In this case, citric acid comsumption was not modified, whereas L-malic acid utilization was higher.     

Poly-3-hydroxybutyrate production by washed cells of Alcaligenes eutrophus; purification, characterisation and potential regulatory role of citrate synthase

Washed cells prepared from carbon-limited continuous cultures of Alcaligenes eutrophus synthesised poly-3-hydroxybutyrate (PHB) rapidly when supplied with glucose, dl-lactate or l-lactate. Unlike growing cultures, washed cells excreted significant amounts of pyruvate. The combined rates of PHB production (qPHB) and pyruvate excretion (qPyr) were linearly related to the rate of carbon substrate utilisation (qS), showing that washed cells behaved similarly to growing cultures when corrected for the absence of non-PHB biomass production. The addition of formate (as a potential source of NADH and/or ATP) significantly stimulated both qPHB and qPyr, but slightly decreased qS and substantially decreased the flux of carbon through the tricarboxylic acid cycle (qTCA). Citrate synthase activity of broken cells was inhibited by physiological concentrations of NADH, but not of ATP, in a manner that was not reversible by AMP. Citrate synthase was purified and shown to be a “large” form of the enzyme (M _r 227,000), comprising a single type of subunit (M _r 47,000) as found in several other gram-negative aerobes. The potential role of citrate synthase in the regulation of PHB production via its ability to control carbon flux into the tricarboxylic acid cycle is discussed. Received: 14 March 1997 / Accepted: 9 July 1997     

A chemically defined medium for cephalosporin C production by Paecilomyces persicinus

A chemically defined medium was developed for the biosynthesis of cephalosporin C by Paecilomyces persicinus Nicot strain P-10. Glucose served as the major carbon source and nitrogen was supplied by five amino acids, l-arginine, l-aspartic acid, l-glutamic acid, glycine and dl-methionine. Omission of any of the first four diminished or prevented production of cephalosporin C; omission of methionine did not. Methionine is not critical for the production of cephalosporin C in this defined medium. Production of the antibiotic was affected by the concentrations of inorganic salts employed. Biotin was required for growth and cephalosporin C synthesis. The addition of l-lysine precursors to the medium did not influence cephalosporin C levels and l-lysine itself inhibited antibiotic production. Known precursors of -lactam antibiotics as well as oleic acid did not affect biosynthesis of cephalosporin C. Chemical changes occurring in the defined medium revealed that glucose was efficiently utilized after 96 hours incubation whereas total soluble nitrogen levels increased following an initial sharp decrease. Mycelial weight and cephalosporin C production were both maximal after 96 hours incubation. Mycelial nitrogen was highest after 48 hours incubation whereas mycelial lipid levels were greatest after 72 hours.     

Biosynthesis and cytoplasmic accumulation of a chlorinated catechol pigment during 3-chlorobenzoate aerobic co-metabolism in Pseudomonas fluorescens

A strain of Pseudomonas fluorescens was capable of co-metabolizing 3-chlorobenzoic acid with the production of a chlorinated catechol black pigment. A peroxidase and another enzymatic activity referred to as a polyphenol oxidase were found to be involved in the oxidation of 4-chlorocatechol to 4-chloro-1,2-benzoquinone, i.e. in the production of highly reactive substrates for pigment formation. Therefore, P. fluorescens cells were seen to take an active part not only in 3-chlorobenzoate mineralization but also in overall pigment production. pH was found to be a key parameter in the regulation of the activity of P. fluorescens oxidoreductive enzymes. Ultrastructural investigations showed that electron dense granules of pigment were distributed throughout the cytoplasm of Pseudomonas fluorescens cells grown in presence of 3-chlorobenzoate, as confirmed also by Thiéry cytochemical investigations.In these cells, an extensive contraction of the cytoplasm as well as a significant damage to the cell wall after two days of incubation, suggested that pigment production caused a premature death of the cells accompanied by the leakage of the cell content. Pigment production seemed to occur mostly in the cytoplasmic context where the electron dense material accumulates until it is released in the medium after the cell lysis.Abbreviations 3-CBA 3-chlorobenzoic acid - BA benzoic acid - 4-CC 4-chlorocatechol - 3-CC 3-chlorocatechol - MBTH 3-methyl-2-benzothiazolinone hydrazone - l-DOPA l-3,4-dihydroxyphenyl-alanine - SPB sodium phosphate buffer     

Mutation-Screening in <Emphasis Type="SmallCaps">l</Emphasis>-(+)-Lactic Acid Producing Strains by Ion Implantation

In this paper, in order to obtain some industrial strains with high yield of l-(+)-lactic acid, the wild type strain Lactobacillus casei CICC6028 was mutated by nitrogen ions implantation. By study, it was found that the high positive mutation rate was obtained when the output power was 10 keV and the dose of N⁺ implantation was 50 × 2.6 × 10¹³ ions/cm². In addition, the initial screening methods were also studied, and it was found that the transparent halos method was unavailable, for some high yield strains of l-(+)-lactic acid were missed. Then a mutant strain which was named as N-2 was isolated, its optimum fermentation temperature was 40°C and the l-(+)-lactic acid yield was 136 g/l compared to the original strain whose optimum fermentation temperature was 34°C and l-(+)-lactic acid production was 98 g/l. Finally, High Performance Liquid Chromatography method was used to analyze the purity of l-(+)-lactic acid that was produced by the mutant N-2, and the result showed the main production of N-2 was l-(+)-lactic acid.     

Lincomycin,rational selection of high producing strain and improved fermentation by amino acids supplementation

Based on the report that the introduction of the biosynthetic precursor of lincomycin, propylproline, could increase the production of lincomycin (Bruce et al. in US Patent 3,753,859, 1973), a mutant strain pro10–20, with resistance of feedback suppression of proline (an analog of propylproline) was thus selected and lincomycin production increased by 10%. The addition of three amino acids (l-proline, l-tyrosine, l-alanine) which are the precursors of propylproline to the fermentation medium was found to enhance the accumulation of l-dopa through different pathways and was favorable to lincomycin biosynthesis. The production of lincomycin was increased by 23, 10, 13%, respectively, with the addition of 0.05 g L⁻¹ l-proline at 60 h, 0.005 g L⁻¹ l-tyrosine and 0.1 g L⁻¹ l-alanine directly in the medium.     

Malic acid accumulation by Aspergillus flavus

Summary Scanning electron microscopy revealed that Aspergillus flavus produced unusual crystals and hair-like processes during its l-malic acid production phase. Crystallinic dendritic aggregates were formed on the hyphae growing as pellets. The size and number of crystal aggregates increased during the fermentation in parallel with l-malic acid accumulation. The crystals (composed of calcium malate as well as small amounts of calcium succinate and calcium fumarate) were removed from the hyphae, after incubation with 6N HCl. On day 5 of the fermentation, about 9% of the total amount of l-malic acid produced was accounted for by the attached crystals. In addition to crystal formation we observed the appearance of hair-like processes during the early phase (2 days) of malic acid production only.     

Utilization of volatile fatty acids from the anaerobic digestion liquor of sewage sludge for 5-aminolevulinic acid production by photosynthetic bacteria

Using volatile fatty acids (VFA) from the anaerobic digestion liquor of sewage sludge, up to 9.2 mm 5-aminolevulinic acid (ALA) could be produced by Rhodobacter sphaeroides under anaerobic-light (5 kLux) conditions with repeated addition of levulinic acid (LA) and glycine and using a large inoculum (approx. 2 g/l of cells, initially from glutamate/malate medium). As the VFA medium also contained organic nitrogen sources such as glutamic acid, the cells were later grown up to about 2 g/l in the VFA medium instead of the glutamate/malate medium. ALA production was then again promoted by adding LA and glycine. Using this improved method, up to 9.3 mm ALA was produced by feeding propionate and acetate together with LA and glycine, indicating that VFA medium formed from sewage sludge could be useful for ALA production.     

Isolation and characterisation of lactic acid bacterium for effective fermentation of cellobiose into optically pure homo <Emphasis Type="SmallCaps">l</Emphasis>-(+)-lactic acid

Effective utilisation of cellulosic biomasses for economical lactic acid production requires a microorganism with potential ability to utilise efficiently its major components, glucose and cellobiose. Amongst 631 strains isolated from different environmental samples, strain QU 25 produced high yields of l-(+)-lactic acid of high optical purity from cellobiose. The QU 25 strain was identified as Enterococcus mundtii based on its sugar fermentation pattern and 16S rDNA sequence. The production of lactate by fermentation was optimised for the E. mundtii QU25 strain. The optimal pH and temperature for batch culturing were found to be 7.0°C and 43°C, respectively. E. mundtii QU 25 was able to metabolise a mixture of glucose and cellobiose simultaneously without apparent carbon catabolite repression. Moreover, under the optimised culture conditions, production of optically pure l-lactic acid (99.9%) increased with increasing cellobiose concentrations. This indicates that E. mundtii QU 25 is a potential candidate for effective lactic acid production from cellulosic hydrolysate materials.     

Utilization of benzylpenicillin as carbon,nitrogen and energy source by a Pseudomonas fluorescens strain

A bacterium which utilizes benzylpenicillin as carbon, nitrogen and energy source was isolated from a lake sediment. The organism was identified as a strain of Pseudomonas fluorescens with a GC content of 59.71 Mol %. After growth of the organism on a mineral salts medium containing benzylpenicillin, the derivatives benzylpenicilloic acid, benzylpenilloic acid and benzylpenicillenic acid were found in culture media. There was no indication that the phenylacetate side chain of benzylpenicillin is decomposed. In uninoculated culture media benzylpenicillin, benzylpenicilloic acid and benzylpenicillenic acid were demonstrable. The following compounds were found to be absent from inoculated or uninoculated culture fluids: d-penicillamine, l-valine, l-cysteine, benzylpenillic acid and 6-aminopenicillanic acid. The organism possesses penicillinase. Penicillin acylase was not demonstrable. The reaction product of penicillinase, benzylpenicilloic acid, supports only little growth. There is no growth on 6-aminopenicillanic acid with or without NH₄Cl. Relatively little growth occurs on 6-aminopenicillanic acid in the presence of phenylacetic acid.The data indicate that the nucleus of the benzylpenicillin molecule is utilized as carbon, nitrogen and energy source. During growth a part of the substrate is destroyed into scarcely usable benzylpenicilloic acid; hereby the antibiotic is detoxified.Abbreviations TLC thin-layer chromatography - DNPH 2,4-dinitrophenylhydrazine     

Regulation of differentiation of the dimorphic fungusPaecilomyces viridis by nitrogen sources,antibiotics and metabolic inhibitors

The effect of nitrogen and carbon sources, vitamins, antibiotics and metabolic inhibitors on growth and differentiation ofPaecilomyces viridis was investigated. Sodium nitrate,l-asparagine,l-proline and peptone were found to be suitable nitrogen sources for mycelial growth (M) in a synthetic medium with glucose.Paecilomyces viridis could also grow slowly in a synthetic medium containing benzylpenicillin or bacitracin as the only nitrogen sources and very slowly even in a medium with polymyxin as the nitrogen source. Ammonium salts, area,l-arginine,d, l-aspartic acid andl,-serine were found to support intensive sporulation. Partially yeast-like growth (Y) was facilitated by NaNO₂, (NH₄)₂SO₄, NH₄NO₃, urea,d, l-alanine,l-arginine,d, l-aspartic acid,l-cysteine,l-glutamic acid andl-serine. Partially yeastlike growth could be observed in a medium with peptone and at an initial pH of 2. The following compounds appear as suitable carbon sources for mycelial growth:d-glucose,d-galactose,d-mannose, maltose, sucrose, chitin andd-mannitol. No changes in morphology could be detected on any of the 25 used carbon sources in a synthetic medium with NaNO₃. Yeast-like growth was induced by the antibiotics azalomycin F, cyanein (brefeldin A), griseofulvin and monorden (radicicol). After removal of the antibiotics, mycelial growth was restored. Sporulation was stimulated by chloramphenicol, 2-deoxy-d-glucose, furancarboxylic acid and stipitatic acid. Deformation of phialides was observed after treatment with actinomycin D, amphotericin B, boromycin, citrinin, cycloheximide, cytochalasin D, fungicidin and scopathricin. Microcyclic conidiation or growth of phialides directly from conidia were induced by cycloheximide, desertomycin, ethidium bromide and 5-fluorouracil.     

Kinetic biosynthesis of l-ascorbyl acetate by immobilized Thermomyces lanuginosus lipase (Lipozyme TLIM)

Thermomyces lanuginosus lipase (Lipozyme TLIM)-catalyzed esterification of l-ascorbic acid was studied. It was suggested that Lipozyme TLIM was a suitable biocatalyst for enzymatic esterification of l-ascorbic acid. Three solvents were investigated for the reaction, and acetone was found to be a suitable reaction medium. Furthermore, it was found that water activity could notably affect the conversion. Moreover, pH memory of Lipozyme TLIM lipase for catalyzing l-ascorbic acid esterification in acetone was observed and the effect of pH on the reaction was estimated. In addition, the influences of other parameters such as substrate mole ratio, enzyme loading, and reaction temperature and reusability of lipase on esterification of l-ascorbic acid were also analyzed systematically and quantitatively. Kinetic characterization of Lipozyme TLIM showed that K _m,a and V _max were 80.085 mM and 0.747 mM min⁻¹, respectively. As a result, Lipozyme TLIM-catalyzed esterification of l-ascorbic acid gave a maximum conversion of 99%.