Isolation and characterization of a novel organic solvent‐tolerant Anoxybacillus sp. PGDY12, a thermophilic Gram‐positive bacterium

Aims:  To isolate and characterize new bacteria capable of tolerating high concentrations of organic solvents at high temperature. Methods and Results:  A solvent‐tolerant, thermophilic bacterium was isolated from hot spring samples at 55°C. The strain PGDY12 was characterized as a Gram‐positive bacterium. It was able to tolerate 100% solvents, such as toluene, benzene and p ‐xylene on plate overlay and high concentrations of these solvents in liquid cultures. A comparison of growth showed that 0·2% (v/v) benzene and 0·15% (v/v) p ‐xylene were capable of enhancing the final cell yields. Transmission electron micrographs showed the incrassation of electron‐transparent intracellular material and the distorted cytoplasm in case of the cells grown in toluene. A phylogenetic analysis based on 16S rRNA sequence data indicated that the strain PGDY12 was member of the genus Anoxybacillus . Conclusions:  The thermophilic, Gram‐positive Anoxybacillus sp. PGDY12 exhibited a unique and remarkable ability to tolerate solvents at 55°C. Significance and Impact of the Study:  The solvent tolerance properties are less known in thermophilic bacteria. The Anoxybacillus sp. PGDY12 is the first strictly thermophilic bacterium able to tolerate a broad range of solvents. This strain is a promising candidate for use as a high temperature biocatalyst in the biotechnological applications.