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Biotechnol Bioeng


Title:Modeling the kinetics of vinyl chloride cometabolism by an ethane-grown Pseudomonas sp
Author(s):Verce MF; Freedman DL;
Address:"Department of Civil and Environmental Engineering, University of Illinois, Urbana 61808, USA"
Journal Title:Biotechnol Bioeng
Year:2000
Volume:71
Issue:4
Page Number:274 - 285
DOI: 10.1002/1097-0290(2000)71:4<274::aid-bit1017>3.0.co;2-z
ISSN/ISBN:0006-3592 (Print) 0006-3592 (Linking)
Abstract:"Pseudomonas sp strain EA1 was isolated under aerobic conditions using ethane as the sole organic carbon and electron donor source, with an observed yield of 0.99 mg total suspended solids/mg ethane (0.85 mg volatile suspended solids / mg ethane) and a maximum specific growth rate of 0.015 d(-1). When grown on ethane, EA1 cometabolizes vinyl chloride (VC) at a maximum rate of 0.350 micromol/mg volatile suspended solids/d and with a half saturation constant of 0.62 microM VC. The rate of VC use by EA1 is twice as high when ethane is also provided, even though consumption of ethane is almost completely inhibited until VC is consumed. The presence of ethane also reduces the total amount of VC cometabolized. A model was developed that adequately describes the batch kinetics of VC cometabolism in the presence and absence of ethane, as well as ethane metabolism in the presence and absence of VC. Terms are included that increase the initial rate of VC use in the presence of ethane (according to the ratio of initial ethane concentration to the half saturation coefficient) but decrease the total amount of VC cometabolized. Parameter estimates for the model were obtained using a step-wise experimental approach, with varying initial concentrations of VC and ethane. Strain EA1 completely dechlorinates VC in the presence and absence of ethane. Measurements of soluble chemical oxygen demand indicate that approximately 50% of the VC consumed is mineralized, with the balance released as soluble, nonchlorinated products. Ethene is not used as a substrate by EA1 but it does inhibit ethane metabolism and VC cometabolism. In mixtures containing all three compounds, more VC is degraded and at a faster rate compared to VC plus ethene. The results suggest that ethane-enhanced biodegradation of VC may contribute to VC removal at the aerobic fringe of groundwater plumes undergoing reductive dechlorination"
Keywords:"Biodegradation, Environmental Ethane/*metabolism Kinetics Pseudomonas/*metabolism Vinyl Chloride/*metabolism;"
Notes:"MedlineVerce, M F Freedman, D L eng 2001/04/06 Biotechnol Bioeng. 2000-2001; 71(4):274-85. doi: 10.1002/1097-0290(2000)71:4<274::aid-bit1017>3.0.co; 2-z"

 
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