Ratios of Carbon Isotopes in Microbial Lipids as an Indicator of Substrate Usage

Abstract

ABSTRACTThe occurrence and abundance of microbial fatty acids have been used for the identification of microorganisms in microbial communities. However, these fatty acids can also be used as indicators of substrate usage. For this, a systematic investigation of the discrimination of the stable carbon isotopes by different microorganisms is necessary. We grew 11 strains representing major bacterial and fungal species with four different isotopically defined carbon sources and determined the isotope ratios of fatty acids of different lipid fractions. A comparison of the differences of δ13C values of palmitic acid (C16:0) with the δ13C values of the substrates revealed that the isotope ratio is independent of the growth stage and that most microorganisms showed enrichment of C16:0with13C when growing on glycerol. With the exception ofBurkholderia gladioli, all microorganism showed depletion of13C in C16:0while incorporating the carbons of glucose, and most of them were enriched with13C from mannose, with the exception ofPseudomonas fluorescensand the Zygomycotina. Usually, the glycolipid fractions are depleted in13C compared to the phospholipid fractions. The δ13C pattern was not uniform within the different fatty acids of a given microbial species. Generally, tetradecanoic acid (C14:0) was depleted of13C compared to palmitic acid (C16:0) while octadecanoic acid (C18:0) was enriched. These results are important for the calibration of a new method in which δ13C values of fatty acids from the environment delineate the use of bacterial substrates in an ecosystem.