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Mapping of Carbon Flow Distribution in the Central Metabolic Pathways of Clostridium cellulolyticum: Direct Comparison of Bacterial Metabolism with a Soluble versus an Insoluble Carbon Source
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  • Mapping of Carbon Flow Distribution in the Central Metabolic Pathways of Clostridium cellulolyticum: Direct Comparison of Bacterial Metabolism with a Soluble versus an Insoluble Carbon Source
  • Mapping of Carbon Flow Distribution in the Central Metabolic Pathways of Clostridium cellulolyticum: Direct Comparison of Bacterial Metabolism with a Soluble versus an Insoluble Carbon Source
저자명
MICKAEL. DESVAUX
간행물명
Journal of microbiology and biotechnology
권/호정보
2004년|14권 6호|pp.1200-1210 (11 pages)
발행정보
한국미생물생명공학회
파일정보
정기간행물|ENG|
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이 논문은 한국과학기술정보연구원과 논문 연계를 통해 무료로 제공되는 원문입니다.
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Metabolic flux analysis was established by adapting previous stoichiometric model developed during growth with cellulose to cell grown with cellobiose for further direct comparison of the bacterial metabolism. In carbon limitation with cellobiose, a shift from acetate-ethanol fermentation to ethanol-lactate fermentation is observed and the pyruvate overflow is much higher than with cellulose. In nitrogen limitation with cellobiose, the cellodextrin and exopolysaccharide overflows are much higher than on cellulose. In carbon and nitrogen saturation with cellobiose, the cellodextrin, exopolysaccharide, and free amino acids overflows reach the highest levels observed but all remain limited on cellulose. By completely shunting the cellulosome, the use of cellobiose allows to reach much higher carbon consumption rates which, in return, highlights the metabolic limitation of C. cellulolyticum. Therefore, the physical nature of the carbon source has a profound impact on the metabolism of C. cellulolyticum and most probably of other cellulolytic bacteria. For cellulolytic bacteria, the use of soluble carbon substrate must carefully be taken into consideration for the interpretation of results. Direct comparison of metabolic flux analysis from cellobiose and cellulose revealed the importance of cellulosome, phosphoglucomutase and pyruvate-ferredoxin oxidoreductase in the distribution of carbon flow in the central metabolism. In the light of these findings, future directions for improvement of cellulose catabolism by this bacterium are discussed.