Previous Article | Next Article 
Appl. Environ. Microbiol., May 1995, 1917-1922, Vol 61, No. 5
JK Fredrickson, DL Balkwill, GR Drake, MF Romine, DB Ringelberg and DC White
An obligately aerobic chemoheterotrophic bacterium (strain F199) previously
isolated from Southeast Coastal Plain subsurface sediments and shown to
degrade toluene, naphthalene, and other aromatic compounds (J. K.
Fredrickson, F. J. Brockman, D. J. Workman, S. W. Li, and T. O. Stevens,
Appl. Environ. Microbiol. 57:796-803, 1991) was characterized by analysis
of its 16S rRNA nucleotide base sequence and cellular lipid composition.
Strain F199 contained 2-OH14:0 and 18:1 omega 7c as the predominant
cellular fatty acids and sphingolipids that are characteristic of the genus
Sphingomonas. Phylogenetic analysis of its 16S rRNA sequence indicated that
F199 was most closely related to Sphingomonas capsulata among the bacteria
currently in the Ribosomal Database. Five additional isolates from deep
Southeast Coastal Plain sediments were determined by 16S rRNA sequence
analysis to be closely related to F199. These strains also contained
characteristic sphingolipids. Four of these five strains could also grow on
a broad range of aromatic compounds and could mineralize [14C]toluene and
[14C]naphthalene. S. capsulata (ATCC 14666), Sphingomonas paucimobilis
(ATCC 29837), and one of the subsurface isolates were unable to grow on any
of the aromatic compounds or mineralize toluene or naphthalene. These
results indicate that bacteria within the genus Sphingomonas are present in
Southeast Coastal Plain subsurface sediments and that the capacity for
degrading a broad range of substituted aromatic compounds appears to be
common among Sphingomonas species from this environment.
Copyright © 1995, American Society for Microbiology
Aromatic-degrading Sphingomonas isolates from the deep subsurface
Pacific Northwest Laboratory, Richland, Washington 99352, USA.
This article has been cited by other articles:
-
Pearson, A., Kraunz, K. S., Sessions, A. L., Dekas, A. E., Leavitt, W. D., Edwards, K. J.
(2008). Quantifying Microbial Utilization of Petroleum Hydrocarbons in Salt Marsh Sediments by Using the 13C Content of Bacterial rRNA. Appl. Environ. Microbiol.
74: 1157-1166
[Abstract] [Full Text] -
Wittich, R.-M., Busse, H.-J., Kampfer, P., Tiirola, M., Wieser, M., Macedo, A. J., Abraham, W.-R.
(2007). Sphingobium aromaticiconvertens sp. nov., a xenobiotic-compound-degrading bacterium from polluted river sediment. Int. J. Syst. Evol. Microbiol.
57: 306-310
[Abstract] [Full Text] -
Kouzuma, A., Pinyakong, O., Nojiri, H., Omori, T., Yamane, H., Habe, H.
(2006). Functional and transcriptional analyses of the initial oxygenase genes for acenaphthene degradation from Sphingomonas sp. strain A4.. Microbiology
152: 2455-2467
[Abstract] [Full Text] -
Goodwin, K. D., Tokarczyk, R., Stephens, F. C., Saltzman, E. S.
(2005). Description of Toluene Inhibition of Methyl Bromide Biodegradation in Seawater and Isolation of a Marine Toluene Oxidizer That Degrades Methyl Bromide. Appl. Environ. Microbiol.
71: 3495-3503
[Abstract] [Full Text] -
Basta, T., Buerger, S., Stolz, A.
(2005). Structural and replicative diversity of large plasmids from sphingomonads that degrade polycyclic aromatic compounds and xenobiotics. Microbiology
151: 2025-2037
[Abstract] [Full Text] -
Venugopalan, V. P., Kuehn, M., Hausner, M., Springael, D., Wilderer, P. A., Wuertz, S.
(2005). Architecture of a Nascent Sphingomonas sp. Biofilm under Varied Hydrodynamic Conditions. Appl. Environ. Microbiol.
71: 2677-2686
[Abstract] [Full Text] -
Liu, Z.-P., Wang, B.-J., Liu, Y.-H., Liu, S.-J.
(2005). Novosphingobium taihuense sp. nov., a novel aromatic-compound-degrading bacterium isolated from Taihu Lake, China. Int. J. Syst. Evol. Microbiol.
55: 1229-1232
[Abstract] [Full Text] -
Kelley, S. T., Theisen, U., Angenent, L. T., St. Amand, A., Pace, N. R.
(2004). Molecular Analysis of Shower Curtain Biofilm Microbes. Appl. Environ. Microbiol.
70: 4187-4192
[Abstract] [Full Text] -
Basta, T., Keck, A., Klein, J., Stolz, A.
(2004). Detection and Characterization of Conjugative Degradative Plasmids in Xenobiotic-Degrading Sphingomonas Strains. J. Bacteriol.
186: 3862-3872
[Abstract] [Full Text] -
Leys, N. M. E. J., Ryngaert, A., Bastiaens, L., Verstraete, W., Top, E. M., Springael, D.
(2004). Occurrence and Phylogenetic Diversity of Sphingomonas Strains in Soils Contaminated with Polycyclic Aromatic Hydrocarbons. Appl. Environ. Microbiol.
70: 1944-1955
[Abstract] [Full Text] -
Suzuki, Y., Kelly, S. D., Kemner, K. M., Banfield, J. F.
(2003). Microbial Populations Stimulated for Hexavalent Uranium Reduction in Uranium Mine Sediment. Appl. Environ. Microbiol.
69: 1337-1346
[Abstract] [Full Text] -
Fujii, K., Kikuchi, S., Satomi, M., Ushio-Sata, N., Morita, N.
(2002). Degradation of 17{beta}-Estradiol by a Gram-Negative Bacterium Isolated from Activated Sludge in a Sewage Treatment Plant in Tokyo, Japan. Appl. Environ. Microbiol.
68: 2057-2060
[Abstract] [Full Text] -
Sessitsch, A., Weilharter, A., Gerzabek, M. H., Kirchmann, H., Kandeler, E.
(2001). Microbial Population Structures in Soil Particle Size Fractions of a Long-Term Fertilizer Field Experiment. Appl. Environ. Microbiol.
67: 4215-4224
[Abstract] [Full Text] -
Videira, P. A., Cortes, L. L., Fialho, A. M., Sá-Correia, I.
(2000). Identification of the pgmG Gene, Encoding a Bifunctional Protein with Phosphoglucomutase and Phosphomannomutase Activities, in the Gellan Gum-Producing Strain Sphingomonas paucimobilis ATCC 31461. Appl. Environ. Microbiol.
66: 2252-2258
[Abstract] [Full Text] -
Romine, M. F., Stillwell, L. C., Wong, K.-K., Thurston, S. J., Sisk, E. C., Sensen, C., Gaasterland, T., Fredrickson, J. K., Saffer, J. D.
(1999). Complete Sequence of a 184-Kilobase Catabolic Plasmid from Sphingomonas aromaticivorans F199. J. Bacteriol.
181: 1585-1602
[Abstract] [Full Text]
Copyright © 2009 by the American Society for Microbiology. For an alternate route to Journals.ASM.org, visit: http://intl-journals.asm.org | More Info»