SREL Reprint #2678
Carbon isotope signatures of fatty acids in Geobacter metallireducens and Shewanella algae
Chuanlun L. Zhang1, Yiliang Li1, Qi Ye1, Jon Fong2, Aaron D. Peacock3, Elizabeth Blunt4, Jiasong Fang5, Derek R. Lovley4, and David C. White3
1Department of Geological Sciences, University of Missouri, 101 Geological Sciences Building, Columbia, MO 65211, USA
2Department of Geological Sciences, Indiana University, Bloomington, IN 47405, USA
3Center for Biomarker Analysis, University of Tennessee, Knoxville, TN 37932, USA
4Department of Microbiology, University of Massachusetts, Amherst, MA 01003, USA
5Department of Civil and Environmental Engineering, University of Michigan, Ann Arbor, MI 48109-2099, USA
Abstract: The goal of this study was to examine carbon isotope fractionations associated with lipid biomarkers of different iron-reducing bacteria. Experiments were conducted using a Geobacter metallireducens strain GS-15 (grown on acetate) and a Shewanella algae strain BrY (grown on lactate). Both organisms were grown anaerobically using ferric citrate as the electron acceptor. The δ13C of total biomass of GS-15 was -34.3‰, which was about 7.2‰ lower than the substrate acetate (δ13C=-27.1‰). The δ13C of total biomass of BrY was -30.0‰, which was about 7.1‰ lower than the substrate lactate (δ13C=-22.9‰). Isotopic fractionations (ε) between fatty acid sand biomass within the same strain were consistently greater for BrY(-10.9‰ to -15.5‰) than for GS-15 (-4.5‰ to -8.6‰). The lipid biomarker 10Me16:0, which was only found in GS-15 cultures, had an ε value of -5.39 ± 0.73‰ (n=2). The differences in fractionation may reflect the carbon assimilation pathways by which the fatty acids were synthesized: the smaller fractionations in GS-15 may be associated with the tricarboxylic cycle, whereas the greater fractionations in BrY may be associated with the serine pathway. The difference in isotope fractionations between lipid biomarkers and total biomass of different iron-reducing bacteria may be used to enhance our understanding of the microbial community structure in an iron-reducing environment.
Keywords: Iron-reducing bacteria; Geobacter metallireducens; Shewanella algae; Lipid biomarkers; Carbon isotopes
SREL Reprint #2678
Zhang, C. L., Y. Li, Q. Ye, J. Fong, A. D. Peacock, E. Blunt, J. Fang, D. R. Lovley, and D. C. White. 2003. Carbon isotope signatures of fatty acids in Geobacter metallireducens and Shewanella algae. Chemical Geology (Isotope Geoscience) 195:17-28.
This information was provided by the University of Georgia's Savannah River Ecology Laboratory (srel.uga.edu).