Preliminary report on the biological effects of space flight on the producing strain of a new immunosuppressant, Kanglemycin C |
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Authors: | Jianqin Zhou Chenghang Sun Nanjin Wang Rongmei Gao Shuoke Bai Huanrong Zheng Xuefu You RongFeng Li |
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Institution: | (1) Institute of Medicinal Biotechnology, Chinese Academy of Medical Sciences and Peking Union Medical College, Tian Tan Xi Li No 1, Beijing, 100050, People’s Republic of China;(2) Department of Chemistry, Johns Hopkins University, Baltimore, Homewood, MD 21218, USA |
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Abstract: | Kanglemycin C (K-C) is a new immunosuppressant isolated from the culture broth of Nocardia mediterranei var. kanglensis 1747-64. To improve the productivity of K-C and to study the biological effects of space flight on its producing strain, spores from five K-C producing strains (U-10, U-15, U-7, M-13, γ-33) mutated from the wild strain N. mediterranei var. kanglensis 1747-64 were carried into space by an unmanned spaceship, “Shenzhou III” (Divine Vessel III) on March 25, 2002. Comparatively, the strain U-7 was the highest K-C producing strain among the above five starting strains when cultivated in 500-ml Erlenmeyer flasks. After a 6 day and 18 h flight, the treated spores went through serial screening processes to screen for high-yield K-C mutant strains, using thin layer chromatography and high performance liquid chromatography (HPLC). The K-C yield produced by one mutant strain, designated as F-16, derived from the starting strain U-7 was increased by up to 200% when compared to that produced by the starting strain U-7 in 500-ml Erlenmeyer flasks after careful postflight HPLC analysis. Another mutant strain, designated as F-210, derived from the starting strain M-13 showed reduced productivity of K-C as well as exhibited changes in some morphological and physiological characteristics. For example, the broth color of the strain F-210 changed from yellow to purple after 96 h of culture, but that of the ground control strain M-13 remained yellow. Similarly, the mycelium morphological change from filamentous to coccoid of F-210 occurred later than that of ground control M-13. Examination of the survivability of postflight spores indicated that exposure to radiation, during the 162 h of space flight, plays a critical role in the survival rates of spores such that spores exposed to strong radiation exhibited lower survival rates than spores exposed to weak radiation.Jianqin Zhou and Chenghang Sun have contributed equally to this work. |
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Keywords: | Space flight Kanglemycin C Nocardia mediterranei var kanglensis 1747-64 Amycolatopsis mediterranei subsp kanglensis 1747-64 Sporulation Secondary metabolites Fermentation Survival rate |
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