M. Sridevi scite author profile

M. Sridevi

5Publications

55Citation Statements Received

36Citation Statements Given

How they've been cited

151

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Affiliations

Acharya Nagarjuna University, Osmania University

Publications

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Phosphate solubilization by Rhizobium strains

Sridevi

Mallaiah

2009

Indian J Microbiol

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Forty-six Rhizobium isolates from legume root and stem nodules were examined for their phosphate-solubilizing ability on Pikovskaya's agar medium. Rhizobium isolates from root nodules of Cassia absus, Vigna trilobata and three strains from Sesbania sesban showed zone of tricalcium phosphate (TCP) solubilization. The isolate from C. absus showed maximum solubilization (620 μg/ml) after 12 d of incubation, while the Rhizobium sp. strain 26 (from S. sesban) showed the least amount (150 μg/ml) of phosphate solubilization. Among the carbon sources tested for their ability to solubilize TCP, maximum solubilization (620 μg/ml) was observed in glucose by Rhizobium isolate from C. absus. Phosphate solubilization increased with increase in glucose concentration steeply up to 2% and slowly above this concentration in four isolates. Among the nitrogen sources tested, maximum solubilization (620 μg/ml) was observed in ammonium sulphate by Rhizobium isolate from C. absus.

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Multiple Responses Optimization and Modeling of Lipase Production by Rhodotorula mucilaginosa MTCC-8737 Using Response Surface Methodology

Subhakar

Potumarthi

Rao

et al. 2009

Appl Biochem Biotechnol

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Response surface methodology was employed to optimize culture medium for production of lipase with Rhodotorula sp. MTCC 8737. In the first step, a Plackett-Burman design was used to evaluate the effects of different inducers qualitatively. Of all the seven inducers tested, soybean oil showed significant influence on the lipase production. Further, response surface studies were conducted to quantitatively optimize by considering linear, interactive, and quadratic effects of test variables. A novel approach was proposed to optimize the lipase production system by optimizing the responses in terms of yield kinetics rather than optimizing the direct responses like lipase titer and biomass growth. The coefficient of determination (R(2)) calculated for Y (P/S) (0.769), Y (P/X) (0.799), and Y (X/S) (0.847) indicated that the statistical model could explain 76.9%, 79.99%, and 84.7% of variability in the response.

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Factors effecting chitinase activity of Rhizobium sp. from Sesbania sesban

Sridevi

Mallaiah

2008

Biologia

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Twenty six Rhizobium strains isolated from root nodules of Sesbania sesban were studied for chitinase activity on chitin agar plates. Among them, only 12 strains showed chitinase activity. The strain showing the highest chitinase activity was selected based on maximum clear zone/colony size ratio on chitin agar plates and chitinase activity in culture filtrate. The strain was identified as Rhizobium sp. which showed a high degree of similarity with Rhizobium radiobacter (=Agrobacterium radiobacter). The cultural and nutritional conditions were optimized for maximum chitinase activity. The Rhizobium sp. exhibited maximum chitinase activity after 36 h of incubation, at neutral pH. Among the different nutritional sources, arabinose and yeast extract were found to be good inducers for chitinase activity. Rhizobium sp. could degrade and utilize dead mycelia of Aspergillus flavus, Aspergillus niger, Curvularia lunata, Fusarium oxysporum and Fusarium udum.

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Phosphate Solubilization by Rhizobium Isolates from Crotalaria Species

Sridevi¹,

Mallaiah²,

Yadav³

2007

J. of Plant Sciences

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Production of Bacteriocins by Root Nodule Bacteria

Sridevi¹,

Mallaiah²

2008

International J. of Agricultural Research

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M. Sridevi

Phosphate solubilization by Rhizobium strains

Multiple Responses Optimization and Modeling of Lipase Production by Rhodotorula mucilaginosa MTCC-8737 Using Response Surface Methodology

Factors effecting chitinase activity of Rhizobium sp. from Sesbania sesban

Phosphate Solubilization by Rhizobium Isolates from Crotalaria Species

Production of Bacteriocins by Root Nodule Bacteria

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