Characterization of Floating Activity of Indigenous Diesel-Assimilating Bacterial Isolates(Environmental Biotechnology)
スポンサーリンク
概要
- 論文の詳細を見る
Six diesel-degrading bacterial strains were isolated from oil-polluted sites located in central Taiwan. The floating activity of the isolates in an oil-supplemented liquid medium was monitored. Cell-surface hydrophobicity as well as cell-free and cell-residue emulsification activities were also investigated. Three isolates, identified as Gordonia alkanivorans CC-JG39, Rhodococcus erythropolis CC-BC04, and R. erythropolis CC-BC11, were found to float and grow near the diesel layer on the surface. The other three isolates (namely, Comamonas testosteroni CC-CF3, Acinetobacter sp. CC-CF5, and Sphingomonas yanoikuyae CC-CG22) did not display floating activity, as they distributed uniformly in the liquid medium. Isolated cell walls of the floating strains appeared to settle at a lower sucrose density than the nonfloating strains. The floating strains were also characterized by a higher cell-surface hydrophobicity and a higher cell-residue emulsification activity than the nonfloating strains. In fact, the floating strains were thought to produce extracellular emulsifiers due to their higher supernatant emulsification activity than the nonfloating strains. The floating activity of G. alkanivorans CC-JG39 may be associated with the production of extracellular polymeric substances that formed an "air-bag" structure facilitating cell floating. The floating ability may also correlate with a high cellular hydrophobicity arising from unique cell wall compositions or cell-wall-bound surface active products.
- 公益社団法人日本生物工学会の論文
- 2005-05-25
著者
-
Lin Ta-chen
Department Of Environmental Engineering National Chung Hsing University
-
Wei Yu-hong
Graduate School Of Biotechnology And Bioengineering Yuan Ze University
-
Chang Jo-shu
Department Of Chemical Engineering National Cheng Kung University
-
Chou Chien-liang
Department Of Chemical Engineering National Cheng Kung University
-
YOUNG CHIU-CHUNG
Department of Soil and Environmental Sciences, National Chung Hsing University
-
HO MANN-JING
Department of Soil and Environmental Sciences, National Chung Hsing University
-
YEH MAO-SONG
Department of Chemical Engineering, National Cheng Kung University
-
Ho Mann-jing
Department Of Soil And Environmental Sciences National Chung Hsing University
-
Young Chiu-chung
Department Of Soil And Environmental Sciences National Chung Hsing University
-
Yeh Mao-song
Department Of Chemical Engineering National Cheng Kung University
-
Wei Yu-hong
Graduate Institute Of Biotechnology And Bioinformatics Yuan-ze University
関連論文
- Antioxidant and Free Radical Scavenging Activities of Terminalia chebula(Miscellaneous)
- Enhanced Production of Prodigiosin-like Pigment from Serratia marcescens SMΔR by Medium Improvement and Oil-Supplementation Strategies(Biochemical Engineering)
- Compare the effects of chondrogenesis by culture of human mesenchymal stem cells with various type of the chondroitin sulfate C(CELL AND TISSUE ENGINEERING)
- Enhanced Undecylprodigiosin Production from Serratia marcescens SS-1 by Medium Formulation and Amino-Acid Supplementation(BIOCHEMICAL ENGINEERING)
- Production and characterization of ectoine by Marinococcus sp. ECT1 isolated from a high-salinity environment(BIOCHEMICAL ENGINEERING)
- Development of natural anti-tumor drugs by microorganisms
- Characterization of Floating Activity of Indigenous Diesel-Assimilating Bacterial Isolates(Environmental Biotechnology)
- Overexpression of a Single Membrane Component from the Bacillus mer Operon Enhanced Mercury Resistance in an Escherichia coli Host
- Effects of Phosphorus-Solubilizing Bacteria and Vesicular-Arbuscular Mycorrhizal Fungi on the Growth of Tree Species in Subtropical-Tropical Soils
- Identification of Induced Acidification in Iron-Enriched Cultures of Bacillus subtilis during Biosurfactant Fermentation(BIOCHEMICAL ENGINEERING)
- Producing bioethanol from cellulosic hydrolyzate via co-immobilized cultivation strategy(BIOCHEMICAL ENGINEERING)
- 2Ap09 Bioprocess engineering on biofuels and bio-based chemicals production from microalgae(Bio-Based Production)