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KMID : 0545119990090020140
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Journal of Microbiology and Biotechnology
1999 Volume.9 No. 2 p.140 ~ p.146
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Maximization of Poly-¥â-Hydraxybutyrate Accumulation by Potassium Limitation in Methylobacterium organophilum and Its Related Metabolic Analysis
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Kim, Seon Won
Kim, Pil/Kim, Jung Hoe
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Abstract
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When methanol was the sole carbon source, Methylobacterium organophilum NCIB 11278, a facultative methylotroph, accumulated poly-¥â-hydroxybutyrate (PHB) as 59% (w/w) of dry cell weight under potassium limitation, 37% under sulfate limitation, and 33% under nitrogen limitation. Based on a stoichiometric analysis of PHB synthesis from methanol, it was suspected that PHB synthesis is accompanied by the overproduction of energy. either 6-10 ATP and IFADH_2, or 6 ATP and 3 NADPH to balance the NADH requirement, per PHB monomer. This was confirmed by observation of increased intracellular ATP levels during PHB accumulation. The intracellular ATP with limited potassium, sulfate, and ammonium increased to 0.185, 0.452, and 0.390 ¥ìmoles ATP/g Xr (residual cell mass) during PHB accumulation. respectively. The intracellular ATP level under potassium limitation was similar to that when there was no nutrient limitation and no PHB accumulation, 0.152-0.186 ¥ìmoles ATP/g Xr. We propose that the maximum PHB accumulation observed when potassium was limited is a result of the energy balance during PHB accumulation. Microorganisms have high energy requirements under potassium limitation. Enhanced PHB accumulation, in ammonium and sulfate limited conditions with the addition of 2,4-dinitrophenol. which dissipates surplus energy, proves this assumption. With the addition of I mM of 2,4-dinitrophenol, the PHB content increased from 32.4% to 58.5% of dry cell weight when nitrogen limited and from 15.1% to 31.0% of dry cell weight when sulfate limited.
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