G. Dauphin scite author profile

Glycogen was synthesized during all the growth phases in the rumen anaerobic cellulolytic bacterium Fibrobacter succinogenes. Glycogen synthesis and degradation were monitored using in situ 13C and 'H-NMR spectroscopy in resting cells of F. succinogenes. The cells were incubated at 37°C under anaerobic conditions with [l-13C]glucose and [2-'3C]glucose. 'H-NMR spectra were used to quantify enrichment by ' 3C of metabolism products. Glucose was utilized for energy requirements of the bacterium, essentially via the Embden-Meyerhof pathway, leading to the synthesis of succinate and acetate, while glycogen was stored. From [l-'3C]glucose, labeling occurred on C2 of succinate and acetate, and on both C1 and C6 of glycogen, the labeling on C1 being predominant. The C6-labeling of glycogen may be explained by scrambling and reversal of the glycolytic pathway at the triose-phosphate and fructose 1,6-bisphosphate level. When the bacteria were incubated first with [l-13C]glucose, then washed and incubated with [2-'3C]glucose, the pattern of 13C labeling in the products of the metabolism, as shown by 13C and 'H-NMR spectra, indicated that glycogen was degraded at the same time as it was being stored, suggesting futile cycling of glycogen. The hydrolysis of previously stored glycogen can provide, in the presence of glucose, up to 30% of the carbon source for the bacteria.

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The oxidation mechanism of polypropylene: contribution of 13C-NMR spectroscopy

Vaillant

Lacoste

Dauphin

1994

Polymer Degradation and Stability

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G. Dauphin

Futile cycling of glycogen in Fibrobacter succinogenes as shown by in situ¹H‐NMR and ¹³C‐NMR investigation

The oxidation mechanism of polypropylene: contribution of 13C-NMR spectroscopy

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G. Dauphin

Futile cycling of glycogen in Fibrobacter succinogenes as shown by in situ1H‐NMR and 13C‐NMR investigation

The oxidation mechanism of polypropylene: contribution of 13C-NMR spectroscopy

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Futile cycling of glycogen in Fibrobacter succinogenes as shown by in situ¹H‐NMR and ¹³C‐NMR investigation