S. V. Ramakrishna scite author profile

A potent indigenous bacillus isolate identified as Bacillus cereus (RJ-30) was found to produce Cyclodextrin Glucosyl Transferase (CGTase) extracellularly. Process optimization of various fermentation parameters has been established for optimal growth of bacillus and the maximum enzyme synthesis. The organism had the highest specific growth rate (0.7 mu) with a generation time of 1 h in glucose containing medium at the conditions of pH 7.0, 37 degrees C at 300 rpm, 1.5 vvm of agitation, and aeration. At these conditions, it exhibited the maximum activity of 54 U/mL at the synthesis rate of 2.7 U/L/h. CGTase was produced from the early exponential growth and peaked during the midsporulating stage of about 16 h thereafter maintained at the same level of 50 U/mL. Saccharides containing media were better inducers than starch, and the influence of carbohydrate substrates has shown that enzyme synthesis is promoted by xylose (65 U/mL) and, more remarkably, by the supplementation of wheat bran extract in glucose medium (106 U/mL). This organism produced CGTase stably in a chemostat culturing over a period of 400 h with a maximum productivity of 5.4 kU/L/h (threefold higher than obtained in batch culturing [1.75 kU/L/h]). Comparatively, CGTase was produced by immobilized cells in a continuous fluidized bed reactor for over approx 360 h, at a relatively high dilution rate of 0.88 h-1 resulting in the productivity of 23.0 kU/L/h.

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Elicitor enhanced production of plumbagin in suspension cultures of Plumbago rosea L.

Palle

Amrutha

Kishor

et al. 2002

Enzyme and Microbial Technology

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S. V. Ramakrishna

Biosorption of chromium VI by free and immobilized Rhizopus arrhizus

Enhanced production of plumbagin in immobilized cells of Plumbago rosea by elicitation and in situ adsorption

Synthesis of Cyclodextrin Glucosyl Transferase byBacillus cereus for the production of cyclodextrins

Elicitor enhanced production of plumbagin in suspension cultures of Plumbago rosea L.

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