Separation of Non‐filamentous Micro‐organisms from Soil by Density Gradient Centrifugation in Percoll

Soil suspensions were homogenized, and desorbed non‐filamentous micro‐organisms were concentrated in a minimum volume of buffer by low speed centrifugation. The cells were separated from inanimate material by flotation at the interface between the buffer and a silica sol/polyvinyl pyrrolidone density gradient medium (Percoll). Cell suspensions were removed from the interface and fractionated according to density by high speed centrifugation on discriminating density gradients in Percoll. Preliminary experiments indicated that most non‐filamentous soil micro‐organisms had densities in the range 1.081–1.123 g%sol;ml while Rhizobium isolated from crushed root nodules on Percoll was split into two bands of densities 1.081–1.110 and 1.041–1.073 g/ml. The lighter cells were the more pleomorphic. The efficiency of extraction of cells from soil was governed by the extent of their desorption from inanimate particles. As rigorous desorption procedures damage cells, extraction efficiencies were low; 10–20% of cells counted microscopically in soil were recovered from density gradients. Electron microscopy of soil micro‐organisms isolated by this method showed an unusual range of surface ornamentations on cell‐like structures of bacterial dimensions.