Yogesh Souche scite author profile

An agar-liquefying Acinetobacter species capable of utilizing agar as sole source of carbon and energy was isolated from soil samples and the culture conditions were standardized for the maximal production of extracellular agarase. The bacterium was capable of liquefying an agar-plate within 3 days of incubation and produced extracellular agarase within a short period of time (16-18 h) when grown in defined mineral salts medium. Bacterium grew in the pH range 4.0-9.0, optimal at pH 7.0; temperature 25-40°C and optimal at 37°C. The agarase secreted by the Acinetobacter strain was inducible by agar and not repressed by other simple sugars when supplemented along with agar in the medium. The bacterium did not require NaCl for growth or production of agarase. The bacterium did not utilize other polysaccharides like j-carrageenan, alginate, cellulose, and CMC. The activity staining of partially purified agarase preparations after native-PAGE and SDS PAGE revealed the presence of a single zone of clearance corresponding to the molecular weight 100 kDa, suggesting that it is a monomer. Neoagarobiose was the end product of agarose hydrolysis by this enzyme. The agarase was an endo-type glycosidase and belongs to Group-III b-agarase family.

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Comparative in situ remediation potential of Pseudomonas putida 710A and Commamonas aquatica 710B using plant (Vigna radiata (L.) wilczek) assay

Rani

Souche

Goel

2012

Ann Microbiol

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Response of indigenously developed bacterial consortia in progressive degradation of polyvinyl chloride

et al. 2015

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Thermoplastic-based materials are recalcitrant in nature, which extensive use affect environmental health. Here, we attempt to compare the response of indigenously produced bacterial consortium-I and consortium-II in degrading polyvinyl chloride (PVC). These consortia were developed by using different combination of bacterial strains of Pseudomonas otitidis, Bacillus cereus, and Acanthopleurobacter pedis from waste disposal sites of Northern India after their identification via 16S rDNA sequencing. The progressive degradation of PVC by consortia was examined via scanning electron microscopy, atomic force microscopy, UV-vis, FT-IR spectra, gel permeation chromatography, and differential scanning calorimetry analysis at different incubations and time intervals. The consortium-II was superior over consortium-I in degrading the PVC. Further, the carbon source utilization analysis revealed that the extensive use of consortia has not any effect on functional diversity of native soil microbes.

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Comparative assessment of in situ bioremediation potential of cadmium resistant acidophilic Pseudomonas putida 62BN and alkalophilic Pseudomonas monteilli 97AN strains on soybean

Rani

Souche

Goel

2009

International Biodeterioration & Biodegradation

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Yogesh Souche

Extracellular β-agarase LSL-1 producing neoagarobiose from a newly isolated agar-liquefying soil bacterium, Acinetobacter sp., AG LSL-1

Comparative in situ remediation potential of Pseudomonas putida 710A and Commamonas aquatica 710B using plant (Vigna radiata (L.) wilczek) assay

Response of indigenously developed bacterial consortia in progressive degradation of polyvinyl chloride

Comparative assessment of in situ bioremediation potential of cadmium resistant acidophilic Pseudomonas putida 62BN and alkalophilic Pseudomonas monteilli 97AN strains on soybean

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