Frementation of biowaste to H2 by Bacillus licheniformis

Completely damaged wheat grains, unfit for human consumption, were fermented to H₂ by Bacillus licheniformis strain JK1. Batch-culture fermentation of wheat slurries [6% (w/v) total solids and 5.8% (w/v) organic solids (OS)] evolved 225, 205 and 203 l of biogas-H, a mixture of H₂, CO₂ and H₂S, per kg OS at pH 6, 7 and 8, respectively. H₂ constituted 25% to 41% of the total biogas-H evolved. In single-stage continuous culture, H₂ generated/kg OS reduced was 70 l at pH 6 and 74 l at pH 7 and 8.V.C. Kalia, S.R. Jain, and A. Kumar are and A.P. Joshi was with the Centre for Biochemical Technology, Mall Road, University Campus, Delhi-110007, India; A.P. Joshi is now with the Chemical Engineering Division, National Chemical Laboratory, Pune-410008, India.     

H2 production by mixed cultures

Production of H₂ from glucose by an anoxygenic phototrophic bacterium (Rhodobacter sphaeroides), a cyanobacterium (Synechococcus cedrorum) and a heterotrophic bacterium (Pseudomonas fluorescens) was tested individually and in mixed cultures of various combinations in light. H₂ production was maximal with a mixed culture of R. sphaeroides and P. fluorescens, which could be further enhanced by immobilization of the bacteria in alginate gel. Inhibition of H₂ photoproduction was observed in a mixture of S. cedrorum and P. fluorescens and a co-culture of all the three organisms.Ch. Sasikala and Ch. V. Ramana are and G. S. Prasad was with the Microbial Biotechnology Laboratory, Department of Botany, Osmania University, Hyderabad-500 007, India. G. S. Prasad is now with the Microbial Type Culture Collection Centre (MTCC), IMTECH, Chandigar, India.     

A new species of Gigaspora from desert soils of Rajasthan,India

A new species of the endogonaceous fungus Gigaspora, isolated from the Indian semi-arid region, is described. The fungus, named G. tuberculata, produces rusty-brown azygospores with septate subtending hypha. The azygospores bear warts all over the outer wall. The shape, size and general appearance of these spores resemble those of Scutellospora persica.Neeraj and A.K. Varma are with the Microbiology Unit, School of Life Sciences, Jawaharlal Nehru University, New Delhi 110 067, India; K.G. Mukerji is with the Applied Mycology Laboratory, Botany Department, University of Delhi, Delhi 110 006, India. B.C. Sharma is with the Department of Textile Engineering, Indian Institute of Technology, New Delhi 110 016, India.     

Microbial and enzymatic improvement of anaerobic digestion of waste biomass

Metabolic activities of different microorganisms (Bacillus subtilis, B. licheniformis and Aspergillus niger) and hydrolytic enzymes (concentrations: 1 to 200 mg enzyme solids g^–1 feed) were studied individually and in combinations with respect to H₂ and methane production from damaged wheat grains. Bacillus subtilis, B. licheniformis and pre-existing hydrogen producers (control) produced 45 to 64 l H₂ kg^–1 total solids and subsequently, with the help of added methanogens, 155 to 220 l methane kg^–1 total solids could be produced. H₂ production from damaged wheat grains could be decreased to 28% or enhanced up to 152% with respect to control, by employing various microbial and enzymatic treatments. Similarly, it has been made possible to vary methane production capacities from as low as 17% to as high as 110% with respect to control.     

Influence of growth conditions on the accumulation of ergosterol by Rhodotorula glutinis

Maximum accumulation of ergosterol by Rhodotorula glutinis IIP-30 [4% (w/w) of the biomass] was at pH 4 and 28 to 30°C, wich glucose or sucrose as carbon source and (NH₄)₂SO₄ as N-source. Molasses only gave 1% (w/w) ergosterol content, as did KNO₃ or urea when used as sole N source.V.W. Johnson was and N.K. Yadav is with the Microbiology Department, School of Science, Gujarat University, Ahmedabad 380 009, India. V.W. Johnson is now with the Blotechnology Laboratory, Research Centre, Gujarat State Fertillizers Company Ltd, Baroda 391 750, India. M. Singh was with the Applied Biology Laboratory, Research Centre, Indian Petrochemicals Corporation Ltd, Baroda 391 345, India, and is now with Pfizer Limited, 178, Industrial Area, Chandigarh 160 002, India.     

Optimization of culture conditions for the production of rifamycin oxidase by Curvularia lunata

Maximum activity (8.9 IU/ml) of rifamycin oxidase in Curvularia lunata, grown in shake-flask culture at 28°C and pH 6.5, was after 96 h. Nearly all the glucose was used in 72 h. An initial culture pH of 6.5 and 28°C were optimum for the growth and enzyme production. Among various carbon and organic nitrogen sources, carboxymethylcellulose and peptone were the most effective for enzyme yield. The rate of enzyme production was enhanced when yeast extract was also added to the medium. The optimum medium for the production of rifamycin oxidase contained 10 g each of yeast extract, peptone and carboxymethylcellulose/l and 0.04% (NH₄)₂SO₄.The author is with the Biochemical Engineering Research and Process Development Centre, Institute of Microbial Technology, Post Box 1304, Sector 39-A, Chandigarh 160 014, India     

Polyclonal antisera production by immunization with mixed cell antigens of different rhizobial species

Somatic antigens of Bradyrhizobium japonicum, Rhizobium sp. (Cicer arietinum) and Rhizobium sp. (Leucaena leucocephala) were prepared as standard, single-species type from cultured cells. Equal numbers of the cells of these rhizobia were then combined to obtain a mixed-rhizobial-species antigen preparation. Rabbits were immunized either with the standard, single-species type or with the mixed-rhizobial-species antigen preparations. The antisera developed from the mixed antigen immunization contained antibodies for all three rhizobial species, detectable at agglutination titres of over 800. The mixed-rhizobial-species antisera were made species specific by cross-absorption. The cross-absorbed and the mixed-rhizobial-species antisera were generally similar in quality for strain identification by agglutination, fluorescent antibodies, immunoblot and ELISA. A 66% reduction in cost was estimated for the production of antisera by immunization with mixed-rhizobial-species antigen.H.J. Hoben and P. Somasegaran are with the NifTAL Center and MIRCEN, University of Hawaii, 1000 Holomua Road, Paia, Maui, HI 96779-9744, USA: N. Boonkerd is with the School of Agricultural Technology, Suranaree University of Technology, University Avenue, Nakorn Racharsima, Thailand. Y.D. Gaur is with the Division of Microbiology, Indian Agricultural Research Institute, New Delhi-110012, India.     

Immobilization of Bacillus licheniformis 5A1 milk-clotting enzyme and characterization of its enzyme properties

Milk-clotting enzyme from Bacillus licheniformis 5A1 was immobilized on Amberlite IR-120 by ionic binding. Almost all the enzyme activity was retained on the support. The immobilized milk-clotting enzyme was repeatedly used to produce cheese in a batch reactor. The production of cheese was repeated 5 times with no loss of activity. The specific activity calculated on a bound-protein basis was slightly higher than that of free enzyme. The free and immobilized enzyme were highly tolerant to repeated freezing and thawing. The optimum temperature for milk-clotting activity was 70 °C with the free enzyme whereas, it was ranged from 70 to 80 °C with the immobilized milk-clotting enzyme. The activation energy (E _A) of the immobilized milk-clotting enzyme was lower than the free enzyme (E _A = 1.59 and 1.99 Kcal mol⁻¹ respectively). The immobilized milk-clotting enzyme exhibited great thermal stability. The milk-clotting optimum pH was 7.0 for both free and immobilized enzyme. The Michaelis constant K _m of the immobilized milk-clotting enzyme was slightly lower than the free enzyme.     

Action of antimicrobial substances produced by different oil reservoir Bacillus strains against biofilm formation

Microbial colonization of petroleum industry systems takes place through the formation of biofilms, and can result in biodeterioration of the metal surfaces. In a previous study, two oil reservoir Bacillus strains (Bacillus licheniformis T6-5 and Bacillus firmus H₂O-1) were shown to produce antimicrobial substances (AMS) active against different Bacillus strains and a consortium of sulfate-reducing bacteria (SRB) on solid medium. However, neither their ability to form biofilms nor the effect of the AMS on biofilm formation was adequately addressed. Therefore, here, we report that three Bacillus strains (Bacillus pumilus LF4—used as an indicator strain, B. licheniformis T6-5, and B. firmus H₂O-1), and an oil reservoir SRB consortium (T6lab) were grown as biofilms on glass surfaces. The AMS produced by strains T6-5 and H₂O-1 prevented the formation of B. pumilus LF4 biofilm and also eliminated pre-established LF4 biofilm. In addition, the presence of AMS produced by H₂O-1 reduced the viability and attachment of the SRB consortium biofilm by an order of magnitude. Our results suggest that the AMS produced by Bacillus strains T6-5 and H₂O-1 may have a potential for pipeline-cleaning technologies to inhibit biofilm formation and consequently reduce biocorrosion.     

Encapsulation as a response of Azospirillum brasilense sp7 to zinc stress

Azospirillum brasilense sp7 was exposed to 2mm Zn²⁺ in minimal medium upon which the cells turned black and non-motile within 24 h. A streptomycin-resistant variant did not exhibit this phenomenon and is sensitized to zinc. A prelude to encystation was the elution of a melanin-like pigment into the medium.The authors are with the Department of Genetics, University of Delhi South Campus, Benito Juarez Road, New Delhi-110021, India     

Production,isolation and partial purification of xylanases from anAspergillus sp.

AnAspergillus sp., isolated from a rubbish dump, produced 10.6 IU ml^-1 xylanase activity. Two xylanases were recognized and each was purified to homogeneity by two-stage chromatography on DEAE-and CM-Sepharose. Xylanase I had a pI of 7.2 and anM _r of 26 kDa whereas xylanase II had a pI of 4.7 and anM _r of 21 kDa. At 50°C, xylanase I was stable for 2.5 h but xylanase II was only stable for 1 h.P. Khanna is with the National Environmental Engineering Research Institute, Nehru Marg, Nagpur 440 020, India. S. Sivakami Sundari and N. Jothi Kumar are with the National Environmental Engineering Research Institute, Madras Zonal Laboratory, CSIR Madras Complex, Taramani 600 113, India.     

Growth and H2 production by Synechococcus spp. using organic/inorganic electron donors

Growth with simultaneous photoproduction of H₂ was obtained on various organic and inorganic compounds using axenic cultures of the oxygenic phototrophic bacteria Synechococcus sp. OU 103 and S. cedrorum. Highest H₂ production occurred with resting cells of S. cedrorum on malate (11.8 mmol H₂/vessel), whereas Synechococcus sp. OU 103 preferred sulphide (10.3 mmol H₂/vessel) as electron donor.The authors are with the Microbial Biotechnology Lab. Department of botany, Osmania University, Hyderabad 500 007, India.     

Removal of inorganic ions from wastewaters by immobilized microalgae

Anabaena doliolum and Chlorella vulgaris immobilized on chitosan were more efficient at removing NO₃ ^–, NO₂ ^p–, PO₄ ^3– and CR₂O₇ ^2– from wastewaters than cells immobilized on agar, alginate, carrageenan or even free cells. Carrageenan-immobilized cells, however, were better at removing NH₄ ⁺ and Ni²⁺. The PO₄ ^3– uptake capacity was significantly increased in cells starved of PO₄ ^3– for 24 h. Agar-immobilized cells, though having good metal and nutrient uptake efficiency, had only a slow growth rate. Chitosan is recommended as an algal support for wastewater detoxification.The authors are with the Laboratory of Algal Biology, Department of Botany, Banaras Hindu University, Varanasi-221005, India     

Ethanol production from sulphuric acid wood hydrolysate ofPinus radiata using free and immobilized cells ofPichia stipitis

Summary Ethanol was produced by a strain ofPichia stipitis adapted to an inhibitory acid wood hydrolysate ofPinus radiata. The best ethanol productivity for batch cultures was 0.21 g/l h at 0.7% ethanol. Varying culture conditions increased ethanol concentration to 0.76%, however the productivity decreased to 0.18 g/l h. A decrease in ethanol concentration in the culture fluid was noted late in the batch which suggested ethanol catabolism. Values of kinetic parameters (K _m,K _s, _max, andV _max) were evaluated for this system. The use of calcium alginate immobilized cells in a continuous-flow stirred tank reactor lead to enhanced fermentative performance, namely a maximum productivity of 0.27 g/l h and 1.13% ethanol yield. The immobilized cells in continuous flow reactors represent an attractive option for fermenting sugars released by sulphuric acid hydrolysis ofP. radiata wood.     

Improved hydrogen photoproduction regulated by carbonylcyanide <Emphasis Type="Italic">m</Emphasis>-chlorophenylhrazone from marine green alga <Emphasis Type="Italic">Platymonas subcordiformis</Emphasis> grown in CO<Subscript>2</Subscript>-supplemented air bubble column bioreactor

To develop an integrated process of CO₂-fixation and H₂ photoproduction by marine green microalga Platymonas subcordiformis, the impact of algal cells grown in CO₂-supplemented air bubble column bioreactor was investigated on H₂ photoproduction regulated by carbonylcyanide m-chlorophenylhrazone. Highest cell growth (3.85 × 10⁶ cells ml⁻¹), starch content (0.25 ± 0.08 mg per 10⁶ cells) and hydrogen production (50 ± 3 ml l⁻¹) were achieved at 3% CO₂-supplemented culture, which are respectively 1.4, 2.1, 1.5-fold of the air-supplemented culture. Improved H₂ production correlated well with the increase in starch accumulation. In this process, the algal cells have been recycled for stable H₂ production of 40–50 ml l⁻¹ over five cycles.     

New method for selection of hydrogen peroxide adapted bifidobacteria cells using continuous culture and immobilized cell technology

Background  

Oxidative stress can severely compromise viability of bifidobacteria. Exposure of Bifidobacterium cells to oxygen causes accumulation of reactive oxygen species, mainly hydrogen peroxide, leading to cell death. In this study, we tested the suitability of continuous culture under increasing selective pressure combined with immobilized cell technology for the selection of hydrogen peroxide adapted Bifidobacterium cells. Cells of B. longum NCC2705 were immobilized in gellan-xanthan gum gel beads and used to continuously ferment MRS medium containing increasing concentration of H₂O₂ from 0 to 130 ppm.     

Pathways of pyruvate metabolism and energetics of growth of Brochothrix thermosphacta

Brochothrix thermosphacta, a psychrophilic, facultative anaerobe, exhibited homolactic fermentation under anaerobic conditions in the presence of excess glucose. In glucose-limited chemostat culture (on synthetic medium), ethanol, acetate, formate and lactate were formed. Formation of ethanol and acetate was accounted for by the formate concentrations in culture filtrates. Acetate, formate and ethanol formation was enhanced at low growth rates in chemostat culture. O₂-limited chemostat studies indicated that formate formation was inhibited by oxygen (<0.2 M) and studies with a variant, strain 301, which lacked pyruvate dehydrogenase activity, showed that cell culture in basal medium did not occur at O₂ tensions greater than that preventing formate production in the wild-type strain. The data are consistent with stimulation of pyruvate formate lyase activity by glucose limitation, possibly because of decreased concentrations of glycolytic intermediates.S.P. Singh was and A. Garrett and P.J. Rogers are with the Division of Science and Technology, Griffith University, Brisbane 4111, Australia. J. McAvoy and A.F. Egan are with the CSIRO Meat Research Laboratory, Cannon Hills, Brisbane 4170, Australia. S.P. Singh is now with the Department of Microbiology, C.B.S. & H., G.B. Pant University of Agriculture & Technology, Pantnagar-263145, India.     

Bacillus licheniformis protease-catalyzed peptide synthesis via the kinetically controlled approach using the carbamoylmethyl ester as an acyl donor in anhydrous acetonitrile

The couplings of N-protected amino acid esters with amino acid amides proved to be carried out in anhydrous acetonitrile in the presence of Bacillus licheniformis protease (subtilisin Carlsberg) immobilized on Celite. The maximal peptide yields were obtained with the immobilized enzyme prepared through lyophilization from a pH 10.7 buffer solution. A series of dipeptide syntheses and several segment condensations were achieved generally in high yields by the combined use of the immobilized enzyme prepared from this pH and the carbamoylmethyl ester as the acyl donor.     

Continuous production of lactic acid from molasses by free and immobilized Sporolactobacillus cellulosolvens

Both free and immobilized cells of Sporolactobacillus cellulosolvens, in continuous culture on molasses (50 g sugar 1^-1) at 40°C, had maximum lactic acid productivities of 0.03 and 0.06 mol l^-1 h, at dilution rates of 0.27 and 0.25 h^-1, respectively.S.S. Kanwar is with the Department of Biotechnology, Guru Nanak Dev University, Amritsar-143 005, India; B.S. Chadha is with the Department of Microbiology, Guru Nanak Dev University, Amritsar-143 005, India. H.K. Tewari and V.K. Sharma are with the Department of Microbiology, Punjab Agricultural University, Ludhiana-141 004, India.     

Dependence of steroid 1(2)-dehydrogenation on the C-17 side chain during cholesterol metabolism by immobilized Mycobacterium fortuitum

1(2)-Dehydrogenation of 4-cholestene-3-one by immobilized Mycobacterium fortuitum NRRL B-8153 and free growing Mycobacterium sp. NRRL B-3805 and Micromonospora chlacea MTCC 329 depended on the nature of the C-17 side chain. The 1(2)-dehydrogenation did not appear to occur before C-17-side-chain cleavage of the 4-cholestene-3-one.S. Patil is and A. Srivastava was with the School of Life Sciences, Devi Ahilya Vishwavidyalaya. Vigyan Bhawan, Khandwa Road Campus, Indore-452 001, India. A. Srivastava is now with the Shripati Singhania R&D Centre. J. K. Pharmaceuticals. 13th Mile Stone. Mathura Road, Faridabad (Haryana) 121 003, India.