Sugarcane molasses and yeast powder used in the Fructooligosaccharides production by Aspergillus japonicus-FCL 119T and Aspergillus niger ATCC 20611

Different concentrations of sucrose (3–25% w/v) and peptone (2–5% w/v) were studied in the formulation of media during the cultivation of Aspergillus japonicus-FCL 119T and Aspergillus niger ATCC 20611. Moreover, cane molasses (3.5–17.5% w/v total sugar) and yeast powder (1.5–5% w/v) were used as alternative nutrients for both strains’ cultivation. These media were formulated for analysis of cellular growth, β-Fructosyltransferase and Fructooligosaccharides (FOS) production. Transfructosylating activity (U _t ) and FOS production were analyzed by HPLC. The highest enzyme production by both the strains was 3% (w/v) sucrose and 3% (w/v) peptone, or 3.5% (w/v) total sugars present in cane molasses and 1.5% (w/v) yeast powder. Cane molasses and yeast powder were as good as sucrose and peptone in the enzyme and FOS (around 60% w/w) production by studied strains.     

A marked enhancement in phytase production by a thermophilic mould Sporotrichum thermophile using statistical designs in a cost-effective cane molasses medium

AIMS: Statistical optimization of phytase production by a thermophilic mould Sporotrichum thermophile in a cost-effective cane molasses medium. METHODS AND RESULTS: Sporotrichum thermophile secreted phytase in cane molasses medium at 45 degrees C and 250 rev min(-1) after 5 days. The important factors identified by Plackett-Burman design (magnesium sulfate, Tween 80, ammonium sulfate and incubation period) were further optimized by response surface methodology (RSM). An overall 107% improvement in phytase production was achieved due to optimization. Supplementation of the medium with inorganic phosphate repressed the enzyme synthesis. When inorganic phosphate was reduced from the cane molasses medium by treatment with calcium chloride, the enzyme production increased. The phytase activity was not affected by the enzyme treatment with trypsin and pepsin. CONCLUSIONS: A twofold increase in phytase production was achieved due to optimization using statistical designs in a cost-effective cane molasses medium. SIGNIFICANCE AND IMPACT OF THE STUDY: Phytase production was doubled due to optimization. The enzyme, being resistant to trypsin and pepsin, thermostable and acid stable, can find application in animal feed industry for improving nutritional status of the feed and combating environmental phosphorus pollution.     

Enrichment and identification of bacteria capable of reducing chemical oxygen demand of anaerobically treated molasses spent wash

AIMS: The aim of this study was to isolate and identify bacterial strains capable of using recalcitrant compounds of molasses spent wash as sole carbon source from the soils of abandoned sites of distillery effluent discharge and characterize their ability of reducing the chemical oxygen demand (COD) of the spent wash. METHODS AND RESULTS: The isolates were grouped into six haplotypes by amplified ribosomal DNA restriction analysis (ARDRA) and BOX-PCR. The phylogenetic position of the representatives of the six main haplotypes strains was determined by 16S rDNA sequencing. They showed maximum similarity to six genera viz. Pseudomonas, Enterobacter, Stenotrophomonas, Aeromonas, Acinetobacter and Klebsiella. The extent of COD (44%) reduced collectively by the six strains was equal to that reduced individually by Aeromonas, Acinetobacter, Pseudomonas and Enterobacter. With spent wash as sole carbon source, the COD reducing strains grew faster at 37 degrees C than 30 degrees C. CONCLUSIONS: Bacterial strains capable of degrading some of the recalcitrant compounds of anaerobically digested molasses spent wash can be isolated from the soils of abandoned sites of distillery effluent discharge. Biostimulation of these bacteria, which can degrade 44% of the carbon compounds of anaerobically digested molasses spent wash can be achieved by nitrogen fertilization and relatively higher temperature. SIGNIFICANCE AND IMPACT OF THE STUDY: Supplementation of nitrogen source and controlling the temperature can be used in evolving strategies for in situ bioremediation of anaerobically digested spent wash from distilleries.     

Neuron specific enolase: a marker for the early development of nerves and endocrine cells in the human lung

Neuron specific enolase (NSE), an isoenzyme of the glycolytic enzyme enolase, has been established by immunocytochemical means as a marker of morphological and functional maturation in central neurons and appears late in development. However, little is known about the presence of NSE in developing peripheral neurons and endocrine cells and its relationship to the development of classical neurotransmitters and peptides. We therefore investigated the appearance of NSE immunoreactivity in nerves and mucosal endocrine cells of the human respiratory tract in foetal, neonatal and adult life. NSE was found to be present in neuroblasts, nerve fibres and endocrine cells from the earliest period of gestation examined (8 weeks), before the appearance of acetylcholinesterase activity (10-12 weeks), dopamine-beta-hydroxylase (20 weeks), vasoactive intestinal polypeptide (20 weeks) or calcitonin (20 weeks). Bombesin-like immunoreactivity was found in a small proportion of mucosal endocrine cells as early as eight weeks in the foetal respiratory tract. These findings indicate that unlike central neurons and their processes, peripheral neurons of the lung contain NSE immunoreactivity well before full maturation and establishment of synaptic contact with end organs.     

Economical glucoamylase production by alginate-immobilized Thermomucor indicae-seudaticae in cane molasses medium

AIMS: The present investigation is aimed at assessing the suitability of cane molasses as a cheaper carbon and energy source for glucoamylase production using alginate-immobilized Thermomucor indicae-seudaticae. METHODS AND RESULTS: The culture variables for glucoamylase production were optimized by 'one-variable-at-a-time' strategy and response surface methodology (RSM). A high glucoamylase titre was attained when 40 alginate beads (c. 5x10(6) immobilized spores) were used to inoculate 50 ml of cane molasses (8%) medium in 250-ml Erlenmeyer flasks. Response surface optimization of fermentation parameters (cane molasses 7%, inoculum level 44 alginate beads per 50 ml of medium and ammonium nitrate 0.25%) resulted in 1.8-fold higher glucoamylase production (27 U ml(-1)) than that in the unoptimized medium (15 U ml(-1)). Enzyme production was also sustainable in 22 l of laboratory air-lift bioreactor. CONCLUSIONS: Cane molasses served as an excellent carbon and energy source for the economical production of glucoamylase, which was almost comparable with that in sucrose yeast-extract broth. The statistical model developed using RSM allowed determination of optimum levels of the variables for improving glucoamylase production. SIGNIFICANCE AND IMPACT OF THE STUDY: The cost of glucoamylase produced in cane molasses supplemented with ammonium nitrate was considerably lower (euro1.43 per million U) than in synthetic medium containing sucrose and yeast-extract (euro35.66 per million U). The reduction in fermentation time in air-lift bioreactor with sustainable glucoamylase titres suggested the feasibility of scale up of the process.     

Optimization of growth conditions of the postharvest biocontrol agent Candida sake CPA-1 in a lab-scale fermenter

AIM: To maximize the growth (expressed as number of viable cells per millilitre) of the postharvest biocontrol agent Candida sake CPA(-1) at laboratory scale conditions. METHODS AND RESULTS: Growth conditons (aeration, agitation speed and inoculum size) were studied in batch conditions in a 5 l fermenter using molasses and urea as growth medium. Consumption of sugars and urea were analysed. Fed-batch studies were also carried out. Glucose and fructose were consumed during the exponential growth phase and were depleted after 18 h of growth. On the contrary, C. sake cells assimilated sucrose during the stationary phase. There was not growth improvement when fed-batch technology was used. Addition of an extra amount of glucose or molasses after 18 h of growth did not contribute to increase final population. CONCLUSIONS: Maximum growth (about 8 x 10(8 )CFU ml(-1)) was obtained at batch fermentation after 30 h growth at 400 rev min(-1), 150 l h(-1) of air and initial concentration of 106 CFU ml(-1). SIGNIFICANCE AND IMPACT OF THE STUDY: The results obtained in this study are an approach for further upscaling of C. sake production.     

Growth Kinetics of Clostridium bifermentans and Its Ability to Degrade TNT Using an Inexpensive Alternative Medium

A strain of Clostridium bifermentans isolated from a munitions-supplemented anaerobic digester is known to degrade 2,4,6-trinitrotoluene (TNT) in rich media such as Brain Heart Infusion (BHI) broth. In order to make this biodegradation process commercially feasible, a new growth medium was developed. Corn steep liquor and molasses were selected as possible nitrogen and carbon sources. A medium containing 2.4% corn steep liquor and 0.4% molasses was chosen based on the value for maximum specific growth rate. The values of µ_m and K_s from continuous runs were of 0.029 min^-1 and 0.488 g/L, respectively. To reduce the overhead cost for maintaining an anoxic environment for this obligatory anaerobic bacterium, the threshold oxygen level under which the bacterium can survive was determined. The degradation of TNT was then carried out in a batch bioreactor, and in a continuously stirred tank bioreactor. The solubility of TNT was enhanced by using the surfactant, Tween 80, and the optimal concentration of Tween 80 was determined to be 2.5%. This concentration of Tween 80 increased TNT solubility by 100% while the effect on growth rate was minimal. Degradation of TNT was then carried out in a continuously stirred tank bioreactor and was found to follow Michaelis-Menten-type kinetics. Degradation of TNT was found to be possible under limited oxygen presence, but at a reduced degradation rate.     

Batch ethanol fermentation of molasses: a correlation between the time necessary to complete the fermentation and the initial concentrations of sugar and yeast cells

Batch fermentations of sugar-cane blackstrap molasses to ethanol, using pressed yeast as inoculum, demonstrated an exponential relationship between the time necessary to complete the fermentation and the initial concentrations of sugar and yeast cells. The parameters of the derived exponential equations depended on the experimental conditions.     

Induction and regulation of cellulase synthesis in Trichoderma pseudokoningii mutants EA3-867 and N2-78

Two mutants, EA₃-867 and N₂-78, with high cellulase yields were obtained from wild strains of Trichoderma pseudokoningii Rifai, 1096 and Mo₃, respectively, by mutagenic treatments with a linear accelerator, ⁶⁰Co, u.v., nitrosoguanidine (NTG) and diethylsulphate (DTS). The mutants grew slowly to produce small colonies on agar plates with synthetic medium. On agar plates of peptone-yeast extract, the small colonies were as large as those of wild strains. The cellulase activities of these mutants in Koji extracts, shake flask culture filtrates, and enzyme preparations were markedly higher than those of their parents. The mutant N₂-78 reached quite high cellulase activity level when cultured for 60 h in shake flasks in a simple medium containing milled straw, wheat bran, mineral salts plus waste glucose molasses. The cellulase saccharifying activities on CMC, filter paper and cotton, were 255, 8.2 and 13.4 mg glucose/ml enzyme, respectively, or 11, 4.3 and 6 times more than those of its parent Mo₃.The cellulase synthesis of EA₃-867 and N₂-78 was strongly induced by sophorose, isolated from pods of Sophora japonica L., and was inhibited by glucose, sugar phosphates, glycerol and organic acids. We conclude that cellulase synthesis of the mutants is regulated by catabolite repression as well as by induction. The increase in cellulase production by both mutants results from changes in the regulatory systems for cellulase synthesis, i.e. the mutants showed higher sensitivity to inducer and lower susceptibility to catabolite repression than did the wild types.A cellulase preparation of Trichoderma pseudokoningii Rifai N₂-78 induced by sophorose was fractionated by DEAE-Sephadex A-50 and Sephadex G-100 column chromatography, selective inactivation and polyacrylamide gel electrophoresis. The components C₁(exo-β1,4-glucanase), C_x(endo-β1,4-glucanase) and β-glucosidase were separated, and their molecular weights were estimated to be 67 000, 62 000 and 42 000 respectively. The homogeneity of C₁ was verified by polyacrylamide gel electrophoresis, immunoelectrophoresis and ultracentrifugal analysis. It is a glycoprotein and is rich in glycine, aspartic acid, threonine, serine and glutamic acid. The C₁ showed a strong synergistic action with C_x in the degradation of cotton, Avicel and Walseth cellulose.A poly(A)-RNA, induced by sophorose in N₂-78 mycelium, was isolated by oligo(dT)-cellulose affinity chromatography.     

A cost-effective cane molasses medium for enhanced cell-bound phytase production by Pichia anomala

AIM: Formulation of an inexpensive cane molasses medium for improved cell-bound phytase production by Pichia anomala. METHODS AND RESULTS: Cell-bound phytase production by Pichia anomala was compared in synthetic glucose-beef extract and cane molasses media. The yeast was cultivated in 250 ml flasks containing 50 ml of the medium, inoculated with a 12 h-old inoculum (3 x 10(6) CFU ml(-1)) and incubated at 25 degrees C for 24 h at 250 rev min(-1). Different cultural parameters were optimized in cane molasses medium in batch fermentation. The cell-bound phytase content increased significantly in cane molasses medium (176 U g(-1) dry biomass) when compared with the synthetic medium (100 U g(-1) dry biomass). In fed-batch fermentation, a marked increase in biomass (20 g l(-1)) and the phytase yield (3000 U l(-1)) were recorded in cane molasses medium. The cost of production in cane molasses medium was pound 0.006 per 1000 U, which is much lower when compared with that in synthetic medium (pound 0.25 per 1000 U). CONCLUSIONS: An overall 86.6% enhancement in phytase yield was attained in optimized cane molasses medium using fed-batch fermentation when compared with that in synthetic medium. Furthermore, the production in cane molasses medium is cost-effective. SIGNIFICANCE AND IMPACT OF THE STUDY: Phytase yield was improved in cane molasses when compared with the synthetic medium, and the cost of production was also significantly reduced. This enzyme can find application in the animal feed industry for improving the nutritional status of feed and combating environmental pollution.