Your search keyword '"Sekar, Sudharshan"' showing total 3 results

1. Bioenergetics for the growth of Staphylococcus lentus in biocompatible choline salts.

Author

Sekar S, Mahadevan S, Vijayaraghavan R, Mandal AB, and MacFarlane DR

Subjects

Energy Metabolism, Glucose metabolism, Hot Temperature, Kinetics, Staphylococcus chemistry, Staphylococcus genetics, Choline metabolism, Staphylococcus growth & development, Staphylococcus metabolism

Abstract

Choline-based biocompatible salts were used as "nutrients" for the growth of Staphylococcus lentus bacteria. Increase in the growth rate of bacteria was observed, compared to conventional carbon sources. In the case of the ionic liquid, choline lactate, the increase was pronounced. Bacterial growth was correlated with power-time curve in an investigation monitored online by reaction calorimetry. From the power-time curve, three phases of the growth can be distinctly seen. Heat yield coefficients estimated for the growth of S. lentus were found to match well with those reported hitherto. A comparative study of heat yields (catabolic) between glucose and choline lactate revealed significant information; the heat yield due to choline lactate (Y (Q/S)) consumption and oxygen (Y (Q/O)) were 23.4 kJ/g and 435 kJ/mol and whereas that for glucose with oxygen were 9.6 kJ/g and 427 kJ/mol, respectively, showing clearly the preferential affinity of choline lactate by the bacteria rather than glucose. This study also established that the use of ionic liquids as nutrients can be monitored using bioreaction calorimetry.

Published

2013

2. The metabolic advantage of choline lactate in growth media: an experimental analysis with Staphylococcus lentus.

Author

Sekar S, Mahadevan S, Deepa PR, Shanmugam BK, Kumar BV, and Mandal AB

Subjects

Cell Proliferation, Computer Simulation, Bioreactors microbiology, Choline metabolism, Ionic Liquids metabolism, Lactic Acid metabolism, Models, Biological, Staphylococcus physiology

Abstract

The metabolic effectiveness of choline lactate in the growth media was investigated relative to conventional carbon source for growing Staphylococcus lentus, a bacterial strain commonly used in bioremediation of industrial effluents and xenobiotic detoxification. Bacterial growth thermodynamics was determined by biocalorimetry. (13)C NMR and FTIR spectroscopic analyses traced the consumption of choline lactate at specific time intervals of bacterial growth. Under aerobic conditions, it is apparent that S. lentus initially metabolized lactate for its energy needs, while the choline cation of the ionic salt seemed to provide its C and N for biosynthetic intermediates for cell structure/function, in the growing bacterial colony. Urea accumulation after 40 h of bacterial growth was recorded. Possible metabolic trajectory of choline lactate consumed during S. lentus growth is suggested here. The theoretical estimation of heats of reaction for the proposed metabolic pathway (455 kJ/mol) was comparable with the experimentally obtained reaction enthalpy (435 kJ/mol), which further validated the proposed metabolic pathway. The biomass and energy profile of bacteria growth in choline media was found to be more favorable than in glucose media. The ionic liquid, choline lactate, offers a metabolically and energetically efficient carbon (and nitrogen) source for growing S. lentus.

Published

2013

3. Choline-based ionic liquids-enhanced biodegradation of azo dyes.

Author

Sekar S, Surianarayanan M, Ranganathan V, MacFarlane DR, and Mandal AB

Subjects

Animals, Biodegradation, Environmental, Biomass, Calorimetry, Chlorocebus aethiops, Toxicity Tests, Vero Cells, Azo Compounds metabolism, Choline metabolism, Coloring Agents metabolism, Staphylococcus metabolism

Abstract

Industrial wastewaters such as tannery and textile processing effluents are often characterized by a high content of dissolved organic dyes, resulting in large values of chemical and biological oxygen demand (COD and BOD) in the aquatic systems into which they are discharged. Such wastewater streams are of rapidly growing concern as a major environmental issue in developing countries. Hence there is a need to mitigate this challenge by effective approaches to degrade dye-contaminated wastewater. In this study, several choline-based salts originally developed for use as biocompatible hydrated ionic liquids (i.e., choline sacchrinate (CS), choline dihydrogen phosphate (CDP), choline lactate (CL), and choline tartarate (CT)) have been successfully employed as the cosubstrate with S. lentus in the biodegradation of an azo dye in aqueous solution. We also demonstrate that the azo dye has been degraded to less toxic components coupled with low biomass formation., (© 2012 American Chemical Society)

Published

2012