Production of red pigments byMonascus purpureus in submerged culture

For the purpose of mass producingMonascus red pigments optimum medium composition and environmental conditions were investigated in submerged flask cultures. The optimum carbon and nitrogen sources were determined to be 30 g/L of glucose and 1.5 g/L of monosodium glutamate (MSG). Of the three metals examined, Fe²⁺ showed the stronges stimulatory effect on pigment production and some stimulatory effect was also found in Mn²⁺. Optimum pH and agitation speed were determined to be 6.5 and 700 rpm, respectively. Under the optimum culture conditions batch fermentation showed that the maximum biomass yield and specific productivity of red pigments were 0.20 g DCW/g glucose and, 32.5 OD₅₀₀ g DCW⁻¹ h⁻¹, respectively.     

Lytic action of strepzymes from micromonospora AS

Summary The effect of lytic enzymes of Micromonospora AS on isolated cell walls and intact or heat killed cells of Candida utilis was investigated. Several substances normally used as stabilizers during protoplast formation were tested for their effect on the lytic action of strepzyme M on intact and dead cells: NaCl and KCl markedly inhibited lysis, sucrose only to 40%. Sorbitol and MgSO₄ have no inhibitory effect. MgSO₄ was selected for further research as it was found to protect the protoplasts. Phosphate buffer pH 6.8 should not be used at concentrations above 0.01 m. When grown submerged in shaking flasks or in pilot fermentation tanks, in liquid medium containing yeast cells and salts, Micromonospora AS gave the highest yield of lytic enzymes. The strepzyme M preparation is thermolabile.     

Optimal C:N ratio for the production of red pigments by Monascus ruber

The carbon-to-nitrogen (C:N) ratio in the biomass of microfungi tends to be quite different (e.g. 10–15) compared with the C:N ratio in the red pigments (e.g. >20) of the fungus Monascus ruber. Therefore, determining an optimal C:N ratio in the culture medium for maximizing the production of the pigments is important. A culture medium composition is established for maximizing the production of the red pigment by the fungus M. ruber ICMP 15220 in submerged culture. The highest volumetric productivity of the red pigment was 0.023 AU L^?1 h^?1 in a batch culture (30 °C, initial pH of 6.5) with a defined medium of the following composition (g L^?1): glucose (10), monosodium glutamate (MSG) (10), MgSO₄·7H₂O (0.5), KH₂PO₄ (5), K₂HPO₄ (5), ZnSO₄·7H₂O (0.01), FeSO₄·7H₂O (0.01), CaCl₂ (0.1), MnSO₄·H₂O (0.03). This medium formulation had a C:N mole ratio of 9:1. Under these conditions, the specific growth rate of the fungus was 0.043 h^?1 and the peak biomass concentration was 6.7 g L^?1 in a 7-day culture. The biomass specific productivity of the red pigment was 1.06 AU g^?1 h^?1. The best nitrogen source proved to be MSG although four other inorganic nitrogen sources were evaluated.     

Production of red pigments byMonascus purpureus in solid-state culture

To maximize and sustain the productivity ofMonascus pigments, various environmental and nutritional parameters, such as the initial moisture content, pH, inoculum size, sample size, and nutrient supplement, that influence pigment production were evaluated in solid-state cultures as follows: initial moisture content, 50%; pH, 6.0; inoculum size 1 x 10⁴ spore cells (grams of dry solid substrate)⁻¹; sample size, 300 g. All supplementary nutrients (carbon, nitrogen, and mineral sources) added has inhibitory effects on the cell growth and red pigment production. In open tray culture the maximum biomass yield and specific productivity of red pigments were 223 mg DCW (grams of initial dry substrate)⁻¹ and, 47.6 OD₅₀₀ (DCW grams)⁻¹ h⁻¹, respectively.     

pH-mediated release of betalains from transformed root cultures of Beta vulgaris L.

Brief exposure of Beta vulgaris root cultures to acidic medium resulted in release of betalain pigments while the capability for regrowth and continued pigment accumulation was retained. A 10-min exposure to pH 2 followed by return to standard growth medium (pH 5.5, 1.1 mM PO₄) resulted in release of 0.59 mg pigment/g dry weight over the subsequent 24-h period. The released pigment corresponds to 36.8% of the total pigments. Further improvement in culture productivity was achieved through phosphate limitation. Specific pigment productivity increased fivefold for cultures grown in phosphate-free medium as compared to cultures grown in control medium (1.1 mM PO₄). A maximum total pigment production of 25.2 mg/l was observed at an initial medium phosphate level 0.3 mM. When combined with phosphate limitation, low pH facilitated the release of 3.03 mg pigment/g dry weight, which corresponds to 50% of the total pigment. The permeabilized roots were capable of regrowth and continued pigment accumulation. A cytochemical assay for respiratory activity revealed that the basis of regrowth was lateral root initials that were unaffected during the acidic pH treatment. Received: 16 December 1997 / Received revision: 7 May 1998 / Accepted: 16 May 1998     

Fermentation of 12% (w/v) Glucose to 1.2 m Lactate by Escherichia coli Strain SZ194 using Mineral Salts Medium

A non-recombinant mutant of Escherichia coli B, strain SZ194, was developed that produces over 1 m d-lactate from glucose (or sucrose) in 72 h using mineral salts medium supplemented with 1 mm betaine in simple anaerobic fermentations. Rates and yields were highest at pH 7.5. Yields approached the theoretical maximum with only trace amounts of co-products. Chiral purity of d-lactate was estimated to be 95%. Specific and volumetric productivities for SZ194 in mineral salts medium (pH 7.5) with betaine were equivalent to those in Luria broth. Revisions requested 17 January 2006; Revisions received 7 February 2006     

Negative effect of ammonium nitrate as nitrogen source on the production of water-soluble red pigments by Monascus sp.

Ammonium salts, especially ammonium nitrate, have been used as nitrogen sources for production of traditional water-insoluble Monascus pigments. However, we noted that defined media employing NH₄NO₃ as the sole nitrogen source in fermentations supported only poor pigment production by Monascus sp., and the pigments produced were mainly cell-bound. NH₄NO₃ was found not to (a) repress pigment synthase formation, (b) enhance synthase decay, or (c) serve as a nitrogen source for pigment production by resting cells; it had a weak inhibitory effect on the action of pigment synthase(s). The high level of cell-bound did not exert a feedback effect on the further synthesis of pigments. These observations indicate that the reason why NH₄NO₃ supports only low pigment production during fermentations is the poor ability of NH₄NO₃ to donate nitrogen in the Schiff-base reaction converting orange pigments to red ones.     

Heterologous protein secretion from Aspergillus niger in phosphate-buffered batch culture

Summary Aspergillus niger was grown in batch culture containing various initial concentrations of sodium phosphate buffer (pH 6.5). A wild-type strain of A. niger and a transformed strain producing hen egg-white lysozyme were studied. The maximum cell yield was attained in medium not supplemented with phosphate. In those cultures acidification of the medium resulted in a minimum of pH 2.0 before reverting to near neutrality. Increasing the initial levels of phosphate buffer reduced the fall in pH but lowered cell yields. Secreted levels of lysozyme were maximal in the 50–100 mm range of added phosphate buffer although mycelial yields were reduced by one third of mycelial yields in medium unsupplemented with phosphate buffer. Offprint requests to: D. B. Archer     

The roles of inorganic nitrogen salts in maintaining phytochrome- and gibberellin A3-mediated germination control in skotodormant lettuce seeds

Skotodormant seeds of Lactuca sativa Grand Rapids imbibed in darkness for 10 days (10-day DS) germinated poorly upon terminal treatment with red light (R) or gibberellin A₃ (GA₃). Inorganic nitrogen salts in the imbibition solutions reduced seed skotodormancy. Ten-day DS seeds, imbibed in 25 mm salt solutions followed by terminal R, germinated 99% if imbibed in NH₄NO₃, 70% if imbibed in KNO₃ or NH₄Cl, and 55% if imbibed in NaNO₃. Seeds imbibed in higher salt concentrations germinated fully upon terminal R treatment. Seeds imbibed in 25 mm NH₄Cl or in 50 mm NH₄NO₃ germinated completely upon GA₃ treatment. Osmotic effects of imbibition media accounted for only part of the effect, since seeds imbibed in 50 mm CaCl₂ or NaCl germinated poorly following R or GA₃ treatment. Seeds imbibed in 500 mm polyethylene glycol (PEG) 1000 or mannitol solutions for 10 days still exhibited skotodormancy. Treatments of R or GA₃ did not stimulate germination in seeds imbibed in mannitol, but germination was complete if seeds were given 1-h acid immersion plus a water rinse before the terminal R or GA₃ treatment. Seeds imbibed in 50–500 mm PEG during 10-day DS germinated significantly better in response to terminal R. Terminal GA₃ significantly improved germination only in seeds imbibed at 500 mm PEG. P_fr appeared to function in mannitol-imbibed seed only after an acid treatment. Seed exposure to inorganic nitrogen salts during the 10-day DS maintained seed sensitivity to terminal R or GA₃ treatment. The depth of seed skotodormancy was related to the availability of inorganic nitrogen and also involved the levels of P_fr or endogenous GA₃.Abbreviations FR far red - DS dark storage - R red - GA₃ gibberellin A₃ - PEG polyethylene glycol - SHAM salicylhydroxamic acid - ANOVA analysis of variance - GLM general linear model - LSD least squares difference - P_fr far-red absorbing form of phytochrome     

Statistical optimization of culture media for production of phycobiliprotein by Synechocystis sp. PCC 6701

Synechocystis sp. PCC 6701 has a brilliantly colored pigment, phycobiliprotein containing phycoerythrin. Culture medium was optimized by sequential designs in order to maximize phycobiliprotein production. The observed fresh weights after 6 days were 0.58 g/L in BG-11, 0.83 g/L in medium for Scenedesmus sp. and 0.03∼0.52 g/L in the other tested media. Medium for Scenedesmus sp. was selected to be optimized by fractional factorial design and central composite design since the medium maintained a more stable pH within a desirable range due to higher contents of phosphate. The fractional factorial design had seven factors with two levels: KNO₃, NaNO₃, NaH₂PO₄, Na₂HPO₄, Ca(NO₃)₂, FeEDTA, and MgSO₄. From the result of fractional factorial design, nitrate and phosphate were identified as significant factors. A central composite design was then applied with four variables at five levels each: nitrate, phosphate, pH, and light intensity. Parameters such as fresh weight and phycobiliprotein contents were used to determine the optimum value of the four variables. The proposed optimum media contains 0.88 g/L of nitrate, 0.32 g/L of phosphate under 25 μE·m⁻²·s⁻¹ of light intensity. The maximum phycobiliprotein contents have been increased over 400%, from 4.9 to 25.9 mg/L after optimization.     

Effect of pH and nitrogen source on pigment production by Monascus purpureus

The effect of pH and nitrogen source on pigment production by Monascus purpureus 192F using glucose as the carbon and energy source, was studied in pH-controlled, batch fermentor cultures using HPLC analysis to determine individual pigment concentrations. A maximum of four pigments were detected in fungal extracts. These were the yellow pigments monascin and ankaflavin, the orange rubropunctatin and the red pigment monascorubramine. Monascorubramine was present as the major product in all instances. Fungal growth and ankaflavin synthesis were favoured at low pH (pH 4.0), whereas production of the other pigments was relatively independent of pH. The nature of the nitrogen source affected fungal growth and pigment production, independent of pH. Ammonium and peptone as nitrogen sources gave superior growth and pigment concentrations compared to nitrate. Ankaflavin was not detected in nitrate cultures. The highest red pigment production was obtained using a glucose-peptone medium at pH 6.5, due to the secretion of red pigments into the medium under these conditions. Correspondence to: M. R. Johns     

Growth and pigment production byArthrobacter pyridinolis n. sp.

A new bacterium capable of growing on 2-hydroxypyridine as sole source of carbon and nitrogen was isolated from soil. During its growth on solid medium, approximately 50% of this substrate was converted to a brilliant blue crystalline pigment which was deposited extracellularly in the colony mass. The pigment was identical to that produced byArthrobacter crystallopoietes during its growth on 2-hydroxypyridine. The new isolate exhibited the typical cycle of morphogenesis characteristic of the genusArthrobacter. The organism is different from all other reported species ofArthrobacter. It is proposed that the organism be namedArthrobacter pyridinolis n. sp.List of Abbreviations MSP mineral salts phosphate basal culture medium containing 2-hydroxypyridine, yeast extract and trace salts - 2-HP 2-hydroxypyridine - PFU plaque forming units - G+C guanine+cytosine - T _m midpoint of thermal denaturation     

Role of sugars in phosphate transport in baker's yeast

Sugar substrates which depress the intracellular level of inorganic phosphate in baker's yeast (d-glucose,d-fructose,d-mannose, sucrose, as well as maltose andd-galactose after appropriate induction) also make transmembrane flux of phosphate anions possible. Acetate and ethanol, although readily oxidized, as well as nonmetabolized sugars, do not produce the effect. Phosphate uptake in whole cells (but not in protoplasts) is accelerated by preincubation with substrate either aerobically or anaerobically but the actual presence of substrate in the incubation medium is required for transport to take place. Starved cells take up phosphate from the medium with aK _m of 3mm, the half-activation concentration by glucose being 18mm, the amount taken up being constant under given conditions (40 μmol/g dry wt. here). Phosphate-rich cells lose phosphate to the medium in the presence of a suitable substrate. The uptake process is characterized by an activation energy of 13400 cal/mol at 10⁻⁶ m phosphate and of 9400 cal/mol at 10⁻³ m phosphate. The process shows two optima at pH 5.0 and 7.0. A short-lived intermediate of fermentative sugar metabolism is postulated as essential for the translocation of phosphate across the yeast membrane.     

The influence of tapioca on the growth,the activity of glucoamylase and pigment production of <Emphasis Type="Italic">Monascus purpureus</Emphasis> UKSW 40 in soybean-soaking wastewater

The present study evaluates the usefulness of tapioca starch as additional carbon source for the growth of Monascus purpureus in soybean-soaking wastewater (SSW). The result revealed that M. purpureus grown on 2.0% (w/v) tapioca starch in SSW produced significantly (P < 0.05) higher amounts of biomass and production of the pigments (OD₄₀₀ and OD₅₀₀) when compared to those grown on glucose-or maltose-containing media. However, the glucoamylase activity of M. purpureus grown on the tapioca-SSW medium was not significantly increased when compared to those from the glucose-containing medium.     

Altered Kinetic Properties of Tyrosine-183 to Cysteine Mutation in Glutamine Synthetase of <Emphasis Type="Italic">Anabaena variabilis</Emphasis> Strain SA1 Is Responsible for Excretion of Ammonium Ion Produced by Nitrogenase

A L-methionine-D,L-sulfoximine-resistant mutant of the cyanobacterium Anabaena variabilis, strain SA1, excreted the ammonium ion generated from N₂ reduction. In order to determine the biochemical basis for the NH₄ ⁺-excretion phenotype, glutamine synthetase (GS) was purified from both the parent strain SA0 and from the mutant. GS from strain SA0 (SA0-GS) had a pH optimum of 7.5, while the pH optimum for GS from strain SA1 (SA1-GS) was 6.8. SA1-GS required Mn⁺² for optimum activity, while SA0-GS was Mg⁺² dependent. SA0-GS had the following apparent K _m values at pH 7.5: glutamate, 1.7 mM; NH₄ ⁺, 0.015 mM; ATP, 0.13 mM. The apparent K _m for substrates was significantly higher for SA1-GS at its optimum pH (glutamate, 9.2 mM; NH₄ ⁺, 12.4 mM; ATP, 0.17 mM). The amino acids alanine, aspartate, cystine, glycine, and serine inhibited SA1-GS less severely than the SA0-GS. The nucleotide sequences of glnA (encoding glutamine synthetase) from strains SA0 and SA1 were identical except for a single nucleotide substitution that resulted in a Y183C mutation in SA1-GS. The kinetic properties of SA1-GS isolated from E. coli or Klebsiella oxytoca glnA mutants carrying the A. variabilis SA1 glnA gene were also similar to SA1-GS isolated from A. variabilis strain SA1. These results show that the NH₄ ⁺-excretion phenotype of A. variabilis strain SA1 is a direct consequence of structural changes in SA1-GS induced by the Y183C mutation, which elevated the K _m values for NH₄ ⁺ and glutamate, and thus limited the assimilation of NH₄ ⁺ generated by N₂ reduction. These properties and the altered divalent cation-mediated stability of A. variabilis SA1-GS demonstrate the importance of Y183 for NH₄ ⁺ binding and metal ion coordination. Received: 3 July 2002 / Accepted: 29 July 2002     

1株四环素降解菌的分离鉴定及降解特性研究

应用微生物降解四环素具有经济有效和环境友好特点,已成为当前研究的热点。采用选择性培养基,从鸡粪中分离出1株能以四环素作为唯一碳源生长的菌株TC-1,培养7 d降解率为56.2%,初步鉴定为蜡状芽胞杆菌(Bacillus cereus)。从碳氮源组合、培养基初始pH、Na Cl浓度和装液量四方面研究了TC-1降解四环素的特性。结果表明,TC-1在以葡萄糖和酵母粉为碳、氮源生长时效果最优,培养7 d时OD600达2.17;但最优降解率出现在蔗糖和大豆蛋白胨的碳氮源组合中,为46.8%。当培养基初始pH为7时,菌株TC-1生长最好,OD600为0.44,四环素降解率为92.3%。当培养基中Na Cl浓度达15 g/L时,TC-1生长受到抑制,降解率仅为28.6%;培养基装液量为40%时降解率最高,为56.2%。     

Growth and β-Glucan 10C3K Production by a Mutant of Alcaligenes faecalis var. myxogenes in Defined Medium

A defined medium was developed in which Alcaligenes faecalis var. myxogenes 10C3 mutant K produced a large quantity of β-glucan 10C3K. The medium contained 4% glucose together with 0.1% citrate, succinate or fumarate as the carbon source, 0.15% (NH₄)₂HPO₄ as the nitrogen source and mineral salts. When NaNH₄HPO₄, KNO₃ or urea was used at a concentration of 0.03% nitrogen as the sole nitrogen source, salts of organic acid were not needed in addition to glucose.

In culture medium containing phosphate buffer (M/15, pH 6.5~8.0) large amounts of polysaccharide were formed and its yield from the 4% glucose added was about 50%. Thus, it was shown that polysaccharide production is enhanced greatly if a suitable pH for polysaccharide production is maintained during incubation.     

Nutrition of eidamella deflexa V. effect of varying the concentrations of certain inorganic compounds on growth and pigment elaboration

Summary The effect of addition of varying concentrations of certain inorganic compounds in selected media upon growth and pigment elaboration ofEidamella deflexa (Berk.)Benjamin was studied in submerged culture. Preliminary experiments were performed to establish approximate optimum ranges of certain inorganic compounds. Further investigations in a glycine-sucrose basal medium indicated that the following range of concentrations stimulated growth to the greatest extent: 0.2% MgSO₄·7H₂O, 0.2% K₂HPO₄, 0.25 mg% CuSO₄·5H₂O, 0,0% ZnSO₄·7H₂O and 10.0 mg % FeSO₄·7H₂O. The degree of pigment production did not seem to be affected by different concentrations of these compounds.The effects of additional molybdenum and zinc upon growth and pigmentation were studied in the following media: lactose-peptone, lactose-glycine, maltose-peptone and maltose-glycine. Molybdenum increased pigmentation slightly in maltose-glycine and maltose-peptone media, but inhibited the amount of growth. Molybdenum decreased both growth and pigmentation in the two lactose media. Zinc had little affect on either growth or pigment elaboration in the two maltose media. However, in the lactose-glycine medium, zinc decreased both growth and pigmentation while in lactose-peptone media zinc slightly increased growth and pigmentation.     

Medium optimization for keratinase production in hair substrate by a new <Emphasis Type="Italic">Bacillus subtilis</Emphasis> KD-N2 using response surface methodology

Culture medium for keratinase production from hair substrate by a new Bacillus subtilis strain, KD-N2, was optimized. Effects of culture conditions on keratinase production were tested, and optimal results were obtained with 10% inocula (v/v), 16 g/L hair substrate, an initial pH value of 6.5 and a culture volume of 20 mL. Several carbon sources (sucrose, cornflour) and nitrogen sources (yeast extract, tryptone and peptone) had positive effects on keratinase production, with sucrose giving optimal results. To improve keratinase yield, statistically based experimental designs were applied to optimize the culture medium. Fractional factorial design (FFD) experiments showed that MgSO₄ and K₂HPO₄ were the most significant factors affecting keratinase production. Further central composite design (CCD) experiments indicated that the optimal MgSO₄ and K₂HPO₄ concentrations were 0.91 and 2.38 g/L, respectively. Using an optimized fermentation medium (g/L: NaCl 1.0, CaCl₂ 0.05, KH₂PO₄ 0.7, sucrose 3, MgSO₄ 0.91, K₂HPO₄ 2.38), keratinase activity increased to 125 U/mL, an approximate 1.7-fold increase over the previous activity (75 U/mL). Human hair was degraded during the submerged cultivation.     

Examination of the substrate stoichiometry of the intestinal Na+/phosphate cotransporter

Summary The substrate stoichiometry of the intestinal Na⁺/phosphate cotransporter was examined using two measures of Na⁺-dependent phosphate uptake: initial rates of uptake with [³²P] phosphate and phosphate-induced membrane depolarization using the potential-sensitive dye diSC₃(5). Isotopic phosphate measures electrogenic and electroneutral Na⁺-dependent phosphate uptake, while phosphate-induced membrane depolarization measures electrogenic phosphate uptake. Using these measures of Na-dependent phosphate uptake, three parameters were compared: substrate affinity; phenylglyoxal sensitivity and labeling; and inhibiton by mono- and di-fluorophosphates. Na⁺/phosphate cotransport was found to have similar Na⁺ activations (apparentK _0.5's of 28 and 25mm), apparentK _m 's for phosphate (100 and 410 m), andK _0.5's for inhibition by phenylglyoxal (70 and 90 m) using isotopic phosphate, uptake and membrane depolarization, respectively. Only difluorophosphate inhibited Na⁺-dependent phosphate uptake below 1mm at pH 7.4.Difluorophosphate also protected a 130-kDa polypeptide from FITC-PG labeling in the presence of Na⁺ with apparentK _0.5 for phosphate of 200 m; similar to the apparentK _m for phosphate uptake, andK _0.5 for phosphate protection against FITC-PG inhibition of Na⁺-dependent phosphate uptake and FITC-PG labeling of the 130-kDa polypeptide. These results indicate that the intestinal Na⁺/phosphate cotransporter is electrogenic at pH 7.4, that H₂PO ₄ ^– is the transport-competent species, and that the 130-kDa polypeptide is an excellent candidate for the intestinal Na⁺/phosphate cotransporter.