B23D-0234:
Lipid-Based Immuno-Magnetic Separation of Archaea from a Mixed Community
Tuesday, 16 December 2014
Cynthia M Frickle1, Jake Bailey1, Karen G Lloyd2, Alexander Shumaker2 and Beverly Flood1, (1)University of Minnesota Twin Cities, Minneapolis, MN, United States, (2)University of Tennessee, Knoxville, TN, United States
Abstract:
Despite advancing techniques in microbiology, an estimated 98% of all microbial species on Earth have yet to be isolated in pure culture. Natural samples, once transferred to the lab, are commonly overgrown by “weed” species whose metabolic advantages enable them to monopolize available resources. Developing new methods for the isolation of thus-far uncultivable microorganisms would allow us to better understand their ecology, physiology and genetic potential. Physically separating target organisms from a mixed community is one approach that may allow enrichment and growth of the desired strain. Here we report on a novel method that uses known physiological variations between taxa, in this case membrane lipids, to segregate the desired organisms while keeping them alive and viable for reproduction. Magnetic antibodies bound to the molecule squalene, which is found in the cell membranes of certain archaea, but not bacteria, enable separation of archaea from bacteria in mixed samples. Viability of cells was tested by growing the separated fractions in batch culture. Efficacy and optimization of the antibody separation technique are being evaluated using qPCR and cell counts. Future work will apply this new separation technique to natural samples.