Study of the Citrate Metabolism of Lactococcus lactis subsp. lactis Biovar Diacetylactis by Means of C Nuclear Magnetic Resonance

The metabolic fate of citrate and pyruvate in four strains of Lactococcus lactis subsp. lactis biovar diacetylactis has been studied by means of C nuclear magnetic resonance, using as a substrate either [3-C]pyruvic acid or custom-synthesized citric acid that is C labeled either at carbons 2 and 4 o...

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Veröffentlicht in:	Applied and environmental microbiology 1991-11, Vol.57 (11), p.3371-3377
Hauptverfasser:	Verhue, W M, Tjan, F S
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description	The metabolic fate of citrate and pyruvate in four strains of Lactococcus lactis subsp. lactis biovar diacetylactis has been studied by means of C nuclear magnetic resonance, using as a substrate either [3-C]pyruvic acid or custom-synthesized citric acid that is C labeled either at carbons 2 and 4 or at carbon 3. The fermentations were carried out batchwise in modified M17 broth. For the actual conversions of the C-labeled substrates, cells at the end of their logarithmic growth phase were used to minimize the conversion to lactic acid. A mass balance of the main citric acid metabolites was obtained; the four strains produced from 50 to 70% (on a molar basis) lactic acid from either citrate or pyruvate. The remaining 50 to 30% was converted mainly to either alpha-acetolactic acid (for one strain) or acetoin (for the other three strains). One of the strains produced an exceptionally high concentration of the diacetyl precursor alpha-acetolactic acid. Another strain (SDC6) also produced alpha-acetolactic acid, but this was decarboxylated to acetoin at a high rate. The C nuclear magnetic resonance method confirmed that the biosynthesis of alpha-acetolactic acid occurs via condensation of pyruvate and "active" acetaldehyde. Diacetyl was not found as a direct metabolite of citrate or pyruvate metabolism.
doi_str_mv	10.1128/aem.57.11.3371-3377.1991
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The fermentations were carried out batchwise in modified M17 broth. For the actual conversions of the C-labeled substrates, cells at the end of their logarithmic growth phase were used to minimize the conversion to lactic acid. A mass balance of the main citric acid metabolites was obtained; the four strains produced from 50 to 70% (on a molar basis) lactic acid from either citrate or pyruvate. The remaining 50 to 30% was converted mainly to either alpha-acetolactic acid (for one strain) or acetoin (for the other three strains). One of the strains produced an exceptionally high concentration of the diacetyl precursor alpha-acetolactic acid. Another strain (SDC6) also produced alpha-acetolactic acid, but this was decarboxylated to acetoin at a high rate. The C nuclear magnetic resonance method confirmed that the biosynthesis of alpha-acetolactic acid occurs via condensation of pyruvate and "active" acetaldehyde. 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The fermentations were carried out batchwise in modified M17 broth. For the actual conversions of the C-labeled substrates, cells at the end of their logarithmic growth phase were used to minimize the conversion to lactic acid. A mass balance of the main citric acid metabolites was obtained; the four strains produced from 50 to 70% (on a molar basis) lactic acid from either citrate or pyruvate. The remaining 50 to 30% was converted mainly to either alpha-acetolactic acid (for one strain) or acetoin (for the other three strains). One of the strains produced an exceptionally high concentration of the diacetyl precursor alpha-acetolactic acid. Another strain (SDC6) also produced alpha-acetolactic acid, but this was decarboxylated to acetoin at a high rate. The C nuclear magnetic resonance method confirmed that the biosynthesis of alpha-acetolactic acid occurs via condensation of pyruvate and "active" acetaldehyde. 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title	Study of the Citrate Metabolism of Lactococcus lactis subsp. lactis Biovar Diacetylactis by Means of C Nuclear Magnetic Resonance
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