Title Symbiotic Relationship between Microbacterium sp. SK0812 and Candida tropicalis SK090404
Author Seung Won Kang, Bo Young Jeon, Tae Sik Hwang, and Doo Hyun Park*
Address Department of Biological Engineering, Seokyeong University, Seoul 136-704, Republic of Korea
Bibliography Journal of Microbiology, 47(6),721-727, 2009,
DOI
Key Words Microbacterium sp., C. tropicalis, starch-hydrolysis, saccharification enzyme, intracellular bacterium
Abstract A bacterium growing inside yeast cytoplasm was observed by light microscope without staining. The bacterium was separately stained from yeast cell by a fluorescent dye, 4′,6-diamidino-2-phenylindole (DAPI). The bacterium actively moved inside yeast cytoplasm and propagated in company with the yeast growth. The bacterium was separated from the yeast cytoplasm by selective disruption of yeast cells and the yeast without the intracellular bacterium (YWOB) was obtained by selective inactivation of bacterial cells. The yeast and the intracellular bacterium were identified as Candida tropicalis and Microbacterium sp., respectively. The length of Microbacterium sp. and C. tropicalis measured with SEM image was smaller than 0.5 μm and was larger than 5 μm, respectively. The yeast with the intracellular bacterium (YWIB) grew in a starch-based medium but the YWOB was not C. tropicalis has neither extracellular nor intracellular saccharification enzyme. Glucose was produced from starch by the extracellular crude enzyme (culture fluid) of Microbacterium sp. YWIB produced significantly more ethanol from glucose than YWOB but did not from starch. Conclusively, C. tropicalis is thought to catabolize starch dependent upon Microbacterium sp. growing in its cytoplasm and furnish stable habitat for the Microbacterium sp.