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« Previous AbstractBinding of Gal4p and bicoid to nucleosomal sites in yeast in the absence of replication    Next AbstractBiotrickling filtration of complex pharmaceutical VOC emissions along with chloroform »

Appl Biochem Biotechnol


Title:Biodegradation of chlorinated and non-chlorinated VOCs from pharmaceutical industries
Author(s):Balasubramanian P; Philip L; Bhallamudi SM;
Address:"Environmental and Water Resources Engineering Division, Department of Civil Engineering, IIT Madras, Chennai 600036, India"
Journal Title:Appl Biochem Biotechnol
Year:2011
Volume:20100827
Issue:4
Page Number:497 - 518
DOI: 10.1007/s12010-010-9057-2
ISSN/ISBN:1559-0291 (Electronic) 0273-2289 (Linking)
Abstract:"Biodegradation studies were conducted for major organic solvents such as methanol, ethanol, isopropanol, acetone, acetonitrile, toluene, chloroform, and carbon tetrachloride commonly used in pharmaceutical industries. Various microbial isolates were enriched and screened for their biodegradation potential. An aerobic mixed culture that had been previously enriched for biodegradation of mixed pesticides was found to be the most effective. All the organic solvents except chloroform and carbon tetrachloride were consumed as primary substrates by this mixed culture. Biodegradation rates of methanol, ethanol, isopropanol, acetone, acetonitrile, and toluene were measured individually in batch systems. Haldane model was found to best fit the kinetics of biodegradation. Biokinetic parameters estimated from single-substrate experiments were utilized to simulate the kinetics of biodegradation of mixture of substrates. Among the various models available for simulating the kinetics of biodegradation of multi-substrate systems, competitive inhibition model performed the best. Performance of the models was evaluated statistically using the dimensionless modified coefficient of efficiency (E). This model was used for simulating the kinetics of biodegradation in binary, ternary, and quaternary substrate systems. This study also reports batch experiments on co-metabolic biodegradation of chloroform, with acetone and toluene as primary substrates. The Haldane model, modified for inhibition due to chloroform, could satisfactorily predict the biodegradation of primary substrate, chloroform, and the microbial growth"
Keywords:"Bacteria/drug effects/metabolism Binding, Competitive Biodegradation, Environmental Chloroform/metabolism *Drug Industry *Halogenation Kinetics Models, Biological Solvents/chemistry Volatile Organic Compounds/*chemistry/*metabolism/pharmacology;"
Notes:"MedlineBalasubramanian, P Philip, Ligy Bhallamudi, S Murty eng 2010/08/28 Appl Biochem Biotechnol. 2011 Feb; 163(4):497-518. doi: 10.1007/s12010-010-9057-2. Epub 2010 Aug 27"

 
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