Your search keyword '"Psychrobacter metabolism"' showing total 3 results

1. Biotreatment of chlorpyrifos in a bench scale bioreactor using Psychrobacter alimentarius T14.

Author

Khalid S and Hashmi I

Subjects

Equipment Design, Kinetics, Wastewater chemistry, Bioreactors microbiology, Chlorpyrifos analysis, Chlorpyrifos isolation & purification, Psychrobacter metabolism, Water Pollutants, Chemical analysis, Water Pollutants, Chemical isolation & purification

Abstract

Bacteria tolerant to high pesticide concentration could be used for designing an efficient treatment technology. Bacterial strains T14 was isolated from pesticide-contaminated soil in mineral salt medium (MSM) and identified as Psychrobacter alimentarius T14 using 16S rRNA gene sequence analysis. Bench scale bioreactor was evaluated for biotreatment of high Chlorpyrifos (CP) concentration using P. alimentarius T14. Effect of various parameters on bioreactor performance was examined and optimum removal was observed at optical density (OD600 nm): 0.8; pH: 7.2; CP concentration: 300 mg L(-1) and hydraulic retention time: 48 h. At optimum conditions, 70.3/79% of CP/chemical oxygen demand (COD) removal was achieved in batch bioreactors. In addition, P. alimentarius T14 achieved 95/91, 62.3/75, 69.8/64% CP/COD removal efficiency with addition of CS (co-substrates), CS1 (yeast extract + synthetic wastewater), CS2 (glucose + synthetic wastewater) and CS3 (yeast extract), respectively. Addition of CS1 to bioreactor could accelerate CP removal rate up to many cycles with considerable efficiency. However, accumulation of 3, 5, 6-trichloro-2-pyridinol affects reactor performance in cyclic mode. First-order rate constant k1 0.062 h(-1) and t1/2 11.1 h demonstrates fast degradation. Change in concentration of total chlorine and nitrogen could be the result of complete mineralization. Photodegradation of CP in commercial product was more than its pure form. Commercial formulation accelerated photodegradation process; however no effect on biodegradation process was observed. After bio-photodegradation, negligible toxicity for seeds of Triticum aestivum was observed. Study suggests an efficient treatment of wastewater containing CP and its metabolites in batch bioreactors could be achieved using P. alimentarius.

Published

2016

2. Enhancing extracellular lipolytic enzyme production in an arctic bacterium, Psychrobacter sp. ArcL13, by using statistical optimization and fed-batch fermentation.

Author

Kim S, Wi AR, Park HJ, Kim D, Kim HW, Yim JH, and Han SJ

Subjects

Arctic Regions, Batch Cell Culture Techniques methods, Biotechnology instrumentation, Caprylates metabolism, Carbon metabolism, Carboxylic Ester Hydrolases metabolism, Culture Media chemistry, Fermentation, Hydrolysis, Nitrogen metabolism, Phylogeny, Psychrobacter genetics, Psychrobacter isolation & purification, RNA, Ribosomal, 16S, Substrate Specificity, Temperature, Biostatistics methods, Biotechnology methods, Enzymes metabolism, Psychrobacter metabolism

Abstract

A strain isolated from seawater samples in the Chuckchi Sea and exhibiting extracellular lipolytic activity was identified using 16S rRNA gene sequence analysis as Psychrobacter sp. ArcL13. The lipolytic enzyme exhibited cold-active properties and high hydrolytic activity toward p-nitrophenyl caprylate (C8), p-nitrophenyl decanoate (C10), and sunflower oil. Statistical optimization of the medium components was performed to enhance the production of cold-active extracellular lipolytic activity. Glucose, yeast extract (YE), and NaCl were selected as the main efficient nutrient sources. Fed-batch fermentation using optimized medium with concentrated YE as the main feeding material showed a maximum lipolytic activity of 10.7 U/mL, which was a 21-fold increase in production over unoptimized flask culture conditions. The information obtained in the present study could prove applicable to the production of cold-active lipase on a large scale.

Published

2015

3. Antibacterial and antilarval activity of deep-sea bacteria from sediments of the West Pacific Ocean.

Author

Xu Y, Miao L, Li XC, Xiao X, and Qian PY

Subjects

Animals, Anti-Bacterial Agents pharmacology, Geologic Sediments microbiology, Halomonas isolation & purification, Halomonas metabolism, Larva drug effects, Pacific Ocean, Pesticides pharmacology, Pseudomonas isolation & purification, Pseudomonas metabolism, Psychrobacter isolation & purification, Psychrobacter metabolism, Streptomyces isolation & purification, Streptomyces metabolism, Anti-Bacterial Agents isolation & purification, Pesticides isolation & purification, Seawater microbiology, Thoracica drug effects

Abstract

Deep-sea microorganisms are a new source of bioactive compounds. In this study, crude ethyl acetate extracts of 176 strains of deep-sea bacteria, isolated from sediments of the West Pacific Ocean, were screened for their antibacterial activity against four test bacterial strains isolated from marine biofilms. Of these, 28 deep-sea bacterial strains exhibited antibacterial activity against one or more of the bacteria tested. Active deep-sea bacterial strains belonged mainly to the genera of Pseudomonas, Psychrobacter and Halomonas. Additionally, antilarval activity of 56 deep-sea bacterial strains was screened using Balanus amphitrite larvae. Seven bacterial strains produced metabolites that had strong inhibitive effects on larval settlement. None of these metabolites showed significant toxicity. The crude extract of one deep-sea Streptomyces strain could completely inhibit larval settlement at a concentration of 25 microg ml(-1).

Published

2007