Pradnya Kanekar

Optimization of protease activity of alkaliphilic bacteria isolated from an alkaline lake in India

Alkaliphilic bacteria belonging to the genera Bacillus, Staphylococcus, Micrococcus, Pseudomonas and Arthrobacter isolated from sediment samples of the alkaline Lonar lake situated in the Buldhana District of Maharashtra State, India, were studied for the production of protease activity. Among the 54 isolates obtained, Arthrobacter ramosus and Bacillus alcalophilus exhibited high protease activity using soyacake as a sole source of carbon and nitrogen. Protease activity was optimum at 1% initial substrate concentration, at 30 degrees C and under shake culture condition for both organisms. The enzyme was thermostable (65 degrees C), stable at pH 12 and also active in the presence of commercial detergent. This enzyme removed blood stains from cotton fabric indicating its potential use in detergent formulations.

Cultivable Bacterial Diversity of Alkaline Lonar Lake, India

Aerobic, alkaliphilic bacteria were isolated and characterized from water and sediment samples collected in the winter season, January 2002 from alkaline Lonar lake, India, having pH 10.5. The total number of microorganisms in the sediment and water samples was found to be 102–106 cfu g−1 and 102–104 cfu ml−1, respectively. One hundred and ninety-six strains were isolated using different enrichment media. To study the bacterial diversity of Lonar lake and to select the bacterial strains for further characterization, screening was done on the basis of pH and salt tolerance of the isolates. Sixty-four isolates were subjected to phenotypic, biochemical characterization and 16S rRNA sequencing. Out of 64, 31 bacterial isolates were selected on the basis of their enzyme profile and further subjected to phylogenetic analysis. Phylogenetic analysis indicated that most of the Lonar lake isolates were related to the phylum Firmicutes, containing Low G+C, Gram-positive bacteria, with different genera: Bacillus, Paenibacillus, Alkalibacillus, Exiguobacterium, Planococcus, Enterococcus and Vagococcus. Seven strains constituted a Gram-negative bacterial group, with different genera: Halomonas, Stenotrophomonas and Providencia affiliated to γ-Proteobacteria, Alcaligenes to β-Proteobacteria and Paracoccus to α-Proteobacteria. Only five isolates were High G+C, Gram-positive bacteria associated with phylum Actinobacteria, with various genera: Cellulosimicrobium, Dietzia, Arthrobacter and Micrococcus. Despite the alkaline pH of the Lonar lake, most of the strains were alkalitolerant and only two strains were obligate alkaliphilic. Most of the isolates produced biotechnologically important enzymes at alkaline pH, while only two isolates (ARI 351 and ARI 341) showed the presence of polyhydroxyalkcanoate (PHA) and exopolysaccharide (EPS), respectively.

Production and characterization of a biodegradable poly (hydroxybutyrate-co-hydroxyvalerate) (PHB-co-PHV) copolymer by moderately haloalkalitolerant Halomonas campisalis MCM B-1027 isolated from Lonar Lake, India

Several microorganisms produce polyhydroxyalkanoates (PHA). They are accumulated intracellularly as energy storage compounds. The PHAs are of interest because of their potential in biomedical applications. Halophilic bacteria and archaea are known to produce polyhydroxybutyrate (PHB). This paper describes production of a biodegradable copolymer, PHB-co-PHV by a moderately haloalkalitolerant Halomonas campisalis, isolated from Lonar Lake, India. The production of PHA was in the range of 45-81% on dry cell weight basis when the organism was grown in a production medium containing 1% (w/v) maltose and 0.1% (w/v) yeast extract, at pH ranging from 6 to 9 with an inoculum density of 10(5)-10(7) cells/ml of medium, for incubation period of 15-30 h and at 37 degrees C. The polymer produced by the organism is a hydroxyester with molecular weight of 1.3014 x 10(6). Its melting temperature was 171 degrees C. The (1)H NMR analysis revealed that the polymer was a copolymer of PHB-co-PHV. This could be achieved by providing simple carbon source viz. maltose.

Biomineralization of an organophosphorus pesticide, Monocrotophos, by soil bacteria

Aims: To study biomineralization of Monocrotophos (MCP) and identify the metabolites formed during biodegradation.

Bioremediation of ε-Caprolactam from Nylon-6 Waste Water by Use of Pseudomonas aeruginosa MCM B-407

Abstract. Nylon-6, a man-made polymer that finds its application in the manufacture of car tires, ropes, fabrics, automobile parts etc., is manufactured with ε-caprolactam. Waste water generated during production of nylon-6 contains the unreacted monomer. Owing to the polluting and toxic nature of ε-caprolactam, its removal from waste streams is necessary. Pseudomonas aeruginosa MCM B-407 was isolated from activated sludge used to treat waste from a factory producing nylon-6. This organism was able to remove ε-caprolactam with simultaneous reduction in chemical oxygen demand (COD). The degradation of ε-caprolactam in waste water was found to be optimal over a wide range of pH from 5.0 to 9.0, temperature of 30°C, and under shake or aerated conditions, with an inoculum density of 105 cells/ml and with an incubation period of 24 – 48 h. Thus, Pseudomonas aeruginosa MCM B-407 isolated from the activated sludge exposed to ε-caprolactam may play an important role in the bioremediation of ε-caprolactam from the waste waters of industries manufacturing nylon-6.

Bioremediation of phenol by alkaliphilic bacteria isolated from alkaline lake of Lonar, India

Phenol is an industrially important compound which has a wide range of applications. Being highly soluble in water, it appears as the major pollutant in waste waters arising from both phenol manufacturing and from industrial units that utilise phenol. Because of its toxicity, bioremediation of phenol is necessary. Since some of the phenol‐bearing industrial waste waters are alkaline in nature, use of alkaliphilic bacteria for bioremediation of phenol was investigated. Alkaliphilic bacteria were isolated from sediments of an alkaline lake in Lonar, Dist. Buldhana, Maharashtra State, India, by phenol enrichment at pH 10·0 and phenol concentration of 500 mg/l. The lake (lat. 19°58′45”, long. 76°34’) is known to be a unique inland saline lake in Asia. It has a circular periphery and diameter of 2 km around the top of the banks and 1·2 km at the bottom. The lake has a high saline level (∼ 2649 mg/l sodium chloride) and a high level of alkalinity (∼ 2605 mg/l calcium carbonate). Alkaliphilic strains of Arthrobacter spp., Bacillus cereus, Citrobacter freundii, Micrococcus agilis and Pseudomonas putida biovar B were capable of removing phenol from waste waters arising from industries manufacturing methyl violet (using phenol as one of the major raw materials) and cumene‐phenol. The waste waters from both these units were alkaline in nature (pH ∼ 9·95–10·1) and had a high phenol content (368–660 mg/l). The alkaliphilic bacteria being studied removed 100% of the phenol from the industrial waste waters within 48 h of incubation under shake culture conditions and at an ambient temperature of 28 ± 2 °C. Bioremediation of phenol by alkaliphilic strains of Arthrobacter spp., B. cereus, C. freundii and M. agilis seems to be the first report.

Bioremediation of an industrial effluent containing monocrotophos.

Almost 30% of the precious agricultural output of India is lost owing to pest infestation. In India, pesticide consumption for protecting crops is about 3% of the total world consumption. Monocrotophos (MCP), an organophosphorus insecticide, is widely used to control insects on crops. Being readily water soluble and highly toxic, its removal from wastewater generated during manufacture becomes inevitable. Bioremediation of wastewater containing MCP by Arthrobacter atrocyaneus, Bacillus megaterium, and Pseudomonas mendocina was highest at pH 8.0, but maximum reduction in Chemical Oxygen Demand (COD) was at pH 7.0. Removal of MCP and reduction in COD by B. megaterium and Ps. mendocina were highest at 35°C, while with A. atrocyaneus, it was maximum at 30°C, under aerated culture condition and inoculum density of 108 cells/ml. Use of pure cultures for bioremediation of effluent containing MCP appears to be the first such attempt.

A novel extracellular protease from Pseudomonas aeruginosa MCM B-327: enzyme production and its partial characterization

The focus of this study was on production, purification and characterization of dehairing protease from Pseudomonas aeruginosa MCM B-327, isolated from vermicompost pit soil. Optimum protease activity, 395 U mL(-1), was observed in the medium containing soybean meal and tryptone, at pH 7 and 30 °C. The crude enzyme exhibited dehairing activity. As compared to chemical method, enzymatic method of dehairing showed reduction in COD, TDS and TSS by 34.28%, 37.32% and 51.58%, respectively. Zymogram of crude enzyme on native-PAGE presented two bands with protease activity of molecular weights of 56 and 67 kDa. Both proteases showed dehairing activity. Out of these, 56kDa protease (PA02) was purified 3.05-folds with 2.71% recovery. The enzyme was active in pH range 7-9 and temperature 20-50 °C with optimum pH of 8 and temperature 35°C. Moreover, the enzyme activity of PA02 protease was not strongly inhibited by specific inhibitor showing the novel nature of enzyme compared to serine, cysteine, aspartyl and metalloproteases. Kinetic studies indicated that substrate specificity of PA02 protease was towards various natural and synthetic proteolytic substrates but inactive against collagen and keratin. These findings suggest protease secreted by P. aeruginosa MCM B-327 may have application in dehairing for environment-friendly leather processing.

Characterisation of copolymer, poly (hydroxybutyrate-co-hydroxyvalerate) (PHB-co-PHV) produced by Halomonas campisalis (MCM B-1027), its biodegradability and potential application

Characterisation of polyhydroxyalkanoate (PHA) film produced by haloalkalitolerant Halomonas campisalis (MCM B-1027) in 14L SS fermenter revealed it to have composition of monomer units, HB:HV as 96:4 as analysed by (1)H NMR indicating the PHA as a co-polymer of PHB-co-PHV, molecular weight by gel permeation chromatography as 2.08 × 10(6), melting temperature 166.51°C, tensile strength 18.8 MPa; two relaxations namely beta transition corresponding to the glass rubber transition and alpha transition corresponding to crystalline relaxation by Dynamic Mechanical Thermal analysis and only one relaxation corresponding to MWS interfacial polarisation with activation energy of 129 kJ/mol by broadband dielectric spectroscopy. Optical microscopic studies showed typical Maltese-cross pattern of spherulites. The PHA film was found to be biodegradable by standard ASTM method as well as by soil burial method. The leak proof polymer bags prepared from the film could be used as a packaging material.

Production, isolation and characterization of extracellular protease of an alkaliphilic strain of Arthrobacter ramosus, MCM B-351 isolated from the alkaline lake of Lonar, India

An extracellular protease was produced by Arthrobacter ramosus isolated from the alkaline lake of Lonar, Buldhana District of Maharashtra, India when grown on a synthetic medium of pH 10 containing casein. The optimum conditions for production were 3.0% initial casein concentration, 2% inoculum of 1 × 108 cells/ml, pH 9.0, temperature 30 °C and shaken culture conditions. The protease was purified by ammonium sulphate precipitation followed by Sephadex G-100 chromatography. Two proteases viz. Arthro I and Arthro II, having molecular weights 21 and 11.4 kDa respectively were isolated. The Arthro II fraction had Km 395 μg/ml and Vmax 10.55 μg/min for azocasein. The maximum activity of enzyme was at 55 °C and pH 8. It was thermostable (up to 80 °C), alkali stable (pH 12) and stable in commercial detergent. The enzyme may contain a thiol group at the active site.