Regulation of the amylase secretion by the yeast Filobasidium capsuligenum and a 2-deoxy-d-glucose resistant mutant

Summary The regulation of extracellular amylase production by the basidiomycetous yeast Filobasidium capsuligenum CCY 64-5-1 was characterized using growing and resting cells. A basal level of amylolytic activity was produced with various carbon sources including glucose. Amylase secretion was repressed by glucose and, more severely, by 2-deoxy-d-glucose, whereas compounds with -1,4-linked glucose, such as methyl glucoside, maltose, -cyclodextrin and soluble starch, served as inducers. Repression was not relieved by exogenously added cAMP. The effects of several metabolic inhibitors on amylase secretion were studied. Following UV-mutagenesis a mutant strain (FC-5) capable of growing in a 2-deoxy-d-glucose supplemented corn starch medium was selected for further characterization. This strain produced more amylase, had acquired an increased resistance against repression by glucose, and retained a growth rate comparable to the wild type. FC-5 was also characterized by a reduced glucokinase activity and an increased hexokinase activity.     

The effects of various nutrients on extracellular peroxidases and acid-precipitable polymeric lignin production byStreptomyces chromofuscus A2 andS. viridosporus T7A

Summary The relationships between growth, medium pH, assimilation of glucose and amino acids, presence or absence of lignocellulose in the medium, lignin solubilization, and the appearance of extracellular peroxidase activity were compared for two lignin-solubilizing actinomycetes, Streptomyces chromofuscus A2 and S. viridosporus T7A. In a mineral salt medium containing yeast extract and three amino acids S. chromofuscus A2 grew faster than S. viridosporus T7A. When d-glucose was added to this medium, it was used in preference to the amino acids, the assimilation of which was delayed. Extracellular peroxidase activity peaked during the stationary phase, and glucose supplementation delayed peroxidase production. The eventual peak in peroxidase activity was higher in glucose-containing medium than in medium without glucose. Supplementation of the medium with lignocellulose did not affect either the level or time of appearance of extracellular peroxidase. However, lignin solubilization in lignocellulose-supplemented medium correlated positively with peroxidase activity: both increased after the cells entered the stationary phase. Supplementation of lignocellulose-containing medium with glucose delayed peroxidase production and lignin solubilization until the glucose had been assimilated. With S. viridosporus T7A, addition of d-glucose to the standard medium affected amino acid assimilation differently from S. chromofuscus A2. Glucose was consumed concomitantly with the amino acids. In the medium supplemented with lignocellulose, peroxidase activity and lignin solubilization correlated as they did for S. chromofuscus A2. A correlation of unknown significance was observed between the peroxidase activities of both strains and increasing medium pH. S. chromofuscus A2 produced more peroxidase and solubilized more lignin from lignocellulose than did S. viridosporus T7A. Overall, these findings show that extracellular peroxidases of both Streptomyces ssp. appear extracellularly primarily after cells cease growing and nutrients have been depleted from the medium. Also, increasing extracellular peroxidase activity and rates of lignin solubilization in both organisms are correlated and subject to glucose repression. These results point to the involvement of stationary-phase active peroxidases in the Streptomyces-catalyzed solubilization of lignin.Paper No. 90518 of the Idaho Agricultural Experiment Station Offprint requests to: D. L. Crawford     

Changes in patterns of alkaline serine protease and bacilysin formation caused by common effectors of sporulation inBacillus subtilis 168

Bacilysin biosynthesis and alkaline serine protease production inBacillus subtilis 168 were monitored and compared in batch cultures when various effectors of sporulation were added at different stages of growth in a medium containing sucrose and glutamate. Depending on the time of addition, glucose affected sporulation and serine protease formation to the same extent, but had no effect on bacilysin production. Ammonium andl-alanine additions suppressed all three processes. Casamino acids severely interfered with bacilysin formation and sporulation, but not with protease formation. Decoyinine, a well-known inducer of sporulation, induced protease formation as well, but did not affect bacilysin biosynthesis. The extent of the observed effects depended largely on the time of metabolite additions. The results are discussed with reference to a possible coregulation of sporulation and the formation of bacilysin and alkaline serine protease inB. subtilis.     

Production of α-amylase fromHalobacterium halobium

Maximum production of extracellular -amylase activity inHalobacterium halobium was at 40°C in a medium containing 25% (w/v) NaCl, 1% (w/v) soluble starch and 1% (w/v) peptone, in presence of 0.1mm ZnSO₄ after 5 days in shaking cultures. The amylase had optimal activity at pH 6.5 in the presence of 1 to 3% (w/v) NaCl at 53°C.S. Patel, N. Jain and D. Madamwar are with the Post Graduate Department of Biosciences, Sadar Patel University, Vallabh Vidyanagar-388120, India.     

Psychrotrophic amylolytic bacteria from deep sea sediment of Prydz Bay, Antarctic: diversity and characterization of amylases

Seventeen psychrotrophic bacteria with cold-adaptive amylolytic, lipolytic or proteolytic activity were isolated from deep sea sediment of Prydz Bay, Antarctic. They were affiliated with γ-Proteobacteria (12 strains) and gram-positive bacteria (5 strains) as determined by 16S rDNA sequencing. The amylase-producing strains belonged to genus Pseudomonas, Rhodococcus, and Nocardiopsis. Two Pseudomonas strains, 7193 and 7197, which showed highest amylolytic activity were chosen for further study. The optimal temperatures for their growth and amylase-producing were between 15 and 20°C. Both of the purified amylases showed highest activity at 40°C and pH 9.0, and retained 50% activity at 5°C. The SDS-PAGE and zymogram activity staining showed that the molecular mass of strain 7193 and 7197 amylases were about 60 and 50 kDa respectively. The Pseudomonas sp. 7193 amylase hydrolyzed soluble starch into glucose, maltose, maltotriose, and maltotetraose, indicating that it had both activities of α-amylase and glucoamylase. The product hydrolyzed by Pseudomonas sp. 7197 amylase was meltotetraose.     

Regulation of calcium fluxes in rat pancreatic islets: Calcium extrusion by sodium-calcium countertransport

Summary The mechanisms by which glucose regulates calcium fluxes in pancreatic endocrine cells were investigated by monitoring the efflux of⁴⁵Ca from prelabeled and perifused rat pancreatic islets. In the absence of both extracellular calcium and glucose, partial or total removal of extracellular sodium decreases the efflux of⁴⁵Ca from prelabeled islets. Glucose also reduces the efflux of⁴⁵Ca from islets perifused in the absence of extracellular calcium. This inhibitory effect of glucose on⁴⁵Ca efflux is decreased by half when the extracellular concentration of sodium is lowered to 24mm. In the absence of extracellular calcium but presence of glucose, partial or even total removal of extracellular sodium fails to decrease the efflux of⁴⁵Ca. At normal extracellular calcium concentration (1mm) partial removal of extracellular sodium dramatically increases⁴⁵Ca efflux from pancreatic islets. This increase in⁴⁵Ca efflux is partially but not totally suppressed by either 16.7mm glucose or cobalt. It is totally suppressed by 4.4mm glucose or by the combination of 16.7mm glucose and cobalt. At normal extracellular calcium concentration, glucose initially reduces and subsequently increases⁴⁵Ca efflux. The initial fall is unaffected by tetrodotoxin but decreased by 50% at low extracellular sodium concentration (24mm). The present results suggest the existence in pancreatic endocrine cells of a glucose-sensitive process of sodium-calcium counter-transport. By inhibiting such a process, glucose may decrease the efflux of calcium from islet cells. The effect of glucose is not mediated by an increase in intracellular sodium concentration. It could contribute to the intracellular accumulation of calcium which is thought to trigger insulin release.This paper is the IVth in a series.     

Nitrate salts suppress sporulation and production of enterotoxin in Clostridium perfringens strain NCTC8239

Clostridium perfringens type A is a common source of food‐borne illness in humans. Ingested vegetative cells sporulate in the small intestinal tract and in the process produce C. perfringens enterotoxin (CPE). Although sporulation plays a critical role in the pathogenesis of food‐borne illness, the molecules triggering/inhibiting sporulation are still largely unknown. It has previously been reported by our group that sporulation is induced in C. perfringens strain NCTC8239 co‐cultured with Caco‐2 cells in Dulbecco's Modified Eagle Medium (DMEM). In contrast, an equivalent amount of spores was not observed when bacteria were co‐cultured in Roswell Park Memorial Institute‐1640 medium (RPMI). In the present study it was found that, when these two media are mixed, RPMI inhibits sporulation and CPE production induced in DMEM. When a component of RPMI was added to DMEM, it was found that calcium nitrate (Ca[NO₃]₂) significantly inhibits sporulation and CPE production. The number of spores increased when Ca(NO₃)₂‐deficient RPMI was used. The other nitrate salts significantly suppressed sporulation, whereas the calcium salts used did not. qPCR revealed that nitrate salts increased expression of bacterial nitrate/nitrite reductase. Furthermore, it was found that nitrite and nitric oxide suppress sporulation. In the sporulation stages, Ca(NO₃)₂ down‐regulated the genes controlled by Spo0A, a master regulator of sporulation, but not spo0A itself. Collectively, these results indicate that nitrate salts suppress sporulation and CPE production by down‐regulating Spo0A‐regulated genes in C. perfringens strain NCTC8239. Nitrate reduction may be associated with inhibition of sporulation.     

Quantification of the histochemical reaction for alkaline phosphatase activity using the indoxyl-tetranitro BT method

Summary The indoxyl—tetranitro BT method for the demonstration of alkaline phosphatase activity has been optimized and its validity for quantitative histochemistry tested. The study has been performed with model films of polyacrylamide gel incorporating homogenate of rat liver and with cryostat sections from the same livers. Addition of polyvinyl alcohol to the incubation medium greatly improved the localization of the final reaction product in cryostat sections. In polyacrylamide films, the formazan production specifically due to alkaline phosphatase was highest when using a medium containing 100mm Tris-HCl buffer, pH 9.0, 0.2–1.0mm substrate, 0.32mm 1-methoxyphenazine methosulphate, 10mm MgCl₂, 5mm sodium azide and 1mm tetranitro BT. For the incubation of cryostat sections in the presence of polyvinyl alcohol, the same medium could be used but the optimum concentrations of substrate and tetranitro BT appeared to be 1–2mm and 5mm respectively. The test minus control reaction was specific for alkaline phosphatase activity and could be inhibited completely with tetramisole. The test minus control reaction was linear with time up to 30 min with model films and up to 15 min with cryostat sections. The formazan production was also linear with the amount of homogenate incorporated in model films and with section thickness up to 18 µm and therefore, the reaction obeyed the Beer—Lambert law. Variation of the substrate concentration yielded aK _M of 0.05mm for aqueous media and aK _M of 0.55mm for polyvinyl alcohol-containing media. The inhibition with tetramisole appeared to be competitive withK _i = 0.07mm for aqueous media andK _i = 0.7mm for polyvinyl alcohol-containing media. These values indicate that the indoxyl—tetranitro BT method is considerably more sensitive than any metal salt or diazonium salt method developed so far. It is concluded that the optimized method described here is a specific, sensitive and valid quantitative histochemical method for the demonstration of alkaline phosphatase activity.     

Effective extracellular trehalose production by<Emphasis Type="Italic"> Cellulosimicrobium cellulans</Emphasis>

A bacterium isolated from a petal of Casa Blanca Lily (ST26 strain) produced a marked amount of extracellular trehalose (-d-glucopyranosyl-[1,1]--d-glucopyranose) in culture medium containing glucose. 16S rDNA-based phylogeny showed that ST26 belongs to, or is related to, Cellulosimicrobium cellulans, a close relative of Cellulomonas spp. Various Cellulomonas strains obtained from culture collections also showed extracellular trehalose productivity, suggesting that trehalose production is a common property of this bacterial genus. ST26 accumulated trehalose in medium supplied with glucose but not with sucrose, glycerol or maltose. Effective extracellular trehalose production by ST26 was achieved by supplying 0.5–1% ammonium sulfate and 0.5–1% CaCO₃. The addition of CaCO₃ adjusted the pH of the culture to around 5.0. The optimized culture conditions yielded trehalose from glucose at a conversion rate of 61%. The addition of ammonium sulfate greatly reduced the dry cell weight of ST26 and intracellular content of trehalose, which suggests that the addition of ammonium sulfate makes ST26 cells leak trehalose into the medium. ST26 effectively propagated in minimal medium containing trehalose as a sole carbon source, which suggests that trehalose serves as a carbohydrate reserve of this organism.The nucleotide sequence of 16S rDNA of ST26 has been submitted to the DDBJ databank under accession number AB109293     

Extrusion of metabolites from baker’s yeast during glucose-induced acidification

Extrusion of metabolites (glycerol, lactic, malic, and succinic acid) during the medium acidification caused by resting baker’s yeast supplied with 200mm glucose was studied under aerobic and anaerobic conditions and in the absence and presence of 14mm KCl. The maximum levels of glycerol and of the sum of acids (about 13 and 8mm, respectively) were attained anaerobically; aerobiosis reduced the levels by 40–50 % and the presence of K⁺ ions by another 10–20 %. The time courses of glucose consumption and medium acidification were similar aerobically and anaerobically. The glucose consumption ourves exhibited a short plateau about 2 min after glucose addition, caused probably by a rapid osmotic equilibration of glucose across the cell mambrane. Metabolite extrusion indicates that at high glucose concentrations the alcohol dehydrogenase reaction is supplemented by other reactions aiding in the maintenance of a balanced NAD⁺/NADH ratio in the cells.     

Variability in the production of amylase by three isolates ofMyrothecium roridum

Amylase production by three isolates ofMyrothecium roridum under different cultural conditions was studied. Starch followed by dextrin induced maximum amylase production (dextrinizing and saccharifying) by all the three isolates. Glucose was a poor substrate for the production of amylases. Bitter gourd isolate was a comparatively more efficient producer of amylases than the other two isolates. Addition of glucose to the starch medium resulted in a repression of amylases. Urea was a good source of nitrogen for induction of dextrinizing amylase in bitter gourd and pearl millet isolates.l-Asparagine,l-tyrosine were good sources of nitrogen for induction of saccharifying amylase in bitter gourd, water melon and pearl millet isolate, respectively. With a few exceptions, dextrinizing amylase production was inhibited by gibberellic acid, cycocel, calcium chloride and calcium sulfate, while these substances stimulated saccharifying-amylase production. No correlation could be observed between amylase production and vegetative growth. Amylases of all the three isolates ofM. roridum were characterized.     

The production and activity of extracellular amylase by Rhizoctonia bataticola

Rhizoctonia bataticola produced the highest amounts of amylase in medium containing starch than that lacking starch within the 10 days of culture. Doubling the concentration of starch in the growth medium resulted in a near doubling of the amylase activity. Amylase production by the fungus is related to the type of carbon source in the medium with maximum amylase produced in medium containing starch. The maximum activity of the enzyme was detected in extracellular filtrates obtained from 4 days cultures. After this period, amylase activity decreased at first, and then increased through the 10 days incubation period. The fungus produced maximum levels of amylase prior to attainment of maximum mycelial biomass. Peak activity of the extracellular amylase was recorded at a temperature and pH range of 20–25°C and 4–5 respectively. The role of the exoenzyme in the deterioration of stored food products and its possible use in industrial fermentation processes are discussed.     

The regulation of agarase production by resting cells of Cytophaga flevensis

The regulation of the synthesis of extracellular agarase by Cytophaga flevensis was studied in resting-cell suspensions. Enzyme synthesis was strictly dependent on the presence of a suitable inducer. Enzyme production was maximal at 20 C in phosphate buffer pH 6.9 in the presence of 1.3mm calcium chloride, 0.03% casamino acids and inducer. Enzyme production was virtually the same at 15 and 20 C, reduced to 50% at 25 C and was not detectable at 30 C. It was highly stimulated by the presence of 0.03% of casamino acids in the incubation mixture and was also favoured by the presence of 1.3mm calcium ions. Of a variety of compounds tested, only melibiose or neoagaro-oligosaccharides were effective inducers. Among the neoagaro-oligosaccharides, neoagarotetraose was the best inducer. At higher concentrations of inducer compounds catabolite repression of enzyme synthesis was apparent. This was also found when glucose was added to the incubation mixture. This repression was not relieved by the addition of cyclic AMP. Indications were found that the excretion process was limiting the rate of production of extracellular enzyme.     

Cassava as a Cheap Source of Carbon for Rhizobial Inoculant Production using an Amylase-producing Fungus and a Glycerol-producing Yeast

Summary The aim of this research was to develop methods to use low-cost carbon compounds for rhizobial inoculant production. Five raw starch materials; steamed cassava, sticky rice, fresh corn, dry corn and sorghum were tested for sugar production by an amylase-producing fungus. Streamed cassava produced the highest amount of reducing sugar after fermentation. Bradyrhizobium japonicum USDA110, Azorhizobium caulinodans IRBG23, Rhizobium phaseoli TAL1383, Sinorhizobium fredii HH103, and Mesorhizobium ciceri USDA2429 were tested on minimal medium supplemented with reducing sugar obtained from cassava fermentation. All strains, except B. japonicum USDA110, could grow in medium containing cassava sugar derived from 100 g steamed cassava per litre, and the growth rates for these strains were similar to those in medium containing 0.5 (w/v) mannitol. The sugar derived from steamed cassava was further used for production of glycerol using yeast. After 1 day of yeast fermentation, the culture containing glycerol and heat-killed yeast cells, was used to formulate media for culturing bradyrhizobia. A formulation medium, FM4, with a glycerol concentration of 0.6 g/l and yeast cells (OD₆₀₀ = 0.1) supported growth of B. japonicum USDA110 up to 3.61 × 10⁹ c.f.u./ml in 7 days. These results demonstrate that steamed cassava could be used to provide cheap and effective carbon sources for rhizobial inoculant production.     

Purification and characterization of an extracellular lipase from Clostridium tetanomorphum

Summary The strictly anaerobic bacterium Clostridium tetanomorphum formed an extracellular lipase when the growth medium contained glycerol in addition to fermentable substrates such as l-glutamate or glucose. The lipase was purified from the concentrated culture supernatant and exhibited a final specific activity of 900 U/mg. The purified lipase had a Stokes’ radius of 5.0 nm and a sedimentation coefficient of 5.7S. The native molecular mass calculated from these values was 118,000 Da, which is considerably higher than the molecular mass calculated by PAGE (70,000 Da). With p-nitrophenyl esters of different fatty acids as substrates enzyme activity was highest when the acyl chain was short (C₂). The purified lipase showed no protease or thioesterase activity.     

Synthesis of neomycin by washed mycelium ofStreptomyces fradiae and some physiological considerations

Studies on the effects of different carbon sources on neomycin formation by washed cells ofStreptomyces fradiae 3535 indicate that they do not stimulate the antibiotic synthesis. The higher titer of neomycin in mineral salts medium is due to the fresh synthesis of neomycin and not merely due to release from the mycelium. Glucosamine andN-acetylglucosamine are stimulatory to neomycin production. The neomycin activity of the broth and the alkaline phosphatase level of the mycelium decrease on the addition of glucose to the medium. The metabolism of neomycin and neomycin phosphate is stimulated in the presence of glucose. Studies on changes in mycelial constituents during neomycin production show that during lysis there is loss of amino acids from the cell while the amino sugar and sugar content remain unaffected. In the medium where cells are resistant to lysis, mycelial total amino acid, amino sugar and sugar increase gradually and the growth phase is prolonged upto day 7 of fermentation.     

Stimulation of the onset of sporulation ofClostridium perfringens type A by netropsin and distamycin

The basic peptide antibiotics, netropsin and distamycin, previously shown to inhibit sporulation ofBacillus subtilis, stimulated low levels of sporulation ofClostridium perfringens strain NCTC 8798 at concentrations of 1.0 and 0.1 g/ml respectively. Most sporulating cells produced in the presence of the antibiotics were defective. These were blocked at Stage III of sporulation, and many possessed forespores exterior to the sporangium. The same antibiotics could also inhibit the caffeine-induced stimulation of sporulation of this strain.     

Effect of 2-deoxy-d-glucose on maintenance in culture of neonatal B cell of rat

Summary The effect of 2-deoxy-d-glucose on maintenance in culture of B cells of the neonatal rat was examined by supplementation of Medium 199 containing 5.5 mM glucose with 1 mM 2-deoxy-d-glucose. Islets maintained in medium with 5.5 mM glucose (basal medium) for 7 d underwent remarkable decreases in glucose sensitivity, and the levels of insulin in the medium dropped. By contrast, addition of 2-deoxy-d-glucose promoted a higher insulin content in medium and an increase in the glucose-induced insulin release and biosynthesis. Moreover, the addition of the deoxysugar caused a selective deletion of fibroblasts and prevented the deterioration of islet cells in basal medium, yielding clusters mostly consisting of islet cells at the end of culture.     

α-Amylase production in batch and continuous cultures by Bacillus caldolyticus

Summary The concentration and productivity of -amylase increased remarkably, 15- and 11-fold respectively, in a continuous culture of Bacillus caldolyticus DSM 405 compared with batch culture, provided starch was used as the sugar source in a casitone medium. In the casitone medium with or without glucose hardly any improvement of enzyme production was observed in continuous culture. The addition of a small amount of starch to the glucose-casitone medium had a marked effect in stimulating amylase formation in continuous culture but no effect in batch culture.It was suggested that the higher production of -amylase in the continuous culture using starch as the inducer was partly related to the predominance of some conditional non-sporulating variants with a higher amylase forming activity and to derepression of the enzyme at a low glucose concentration.     

Purification and characterization of an extracellular glucoamylase from the yeastCandida tsukubaensis CBS 6389

The starch-degrading yeastCandida tsukubaensis CBS 6389 secreted amylase at high activity when grown in a medium containing soluble starch. The extracellular α-amylase activity was very low. The major amylase component was purified by DEAE-Sephadex A-50 chromatography and Ultrogel AcA 44 gel filtration and characterized as a glucoamylase. The enzyme proved to be a glycoprotein with a molecular weight of 56000. The glucoamylase had a temperature optimum at 55°C and displayed highest activity in a pH range of 2.4–4.8. Acarbose strongly inhibited the purified glucoamylase. Debranching activity was present as demonstrated by the release of glucose from pullulan.