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Regulation of acetate metabolism in Corynebacterium glutamicum: transcriptional control of the isocitrate lyase and malate synthase genes (1997)

Wendisch, Volker F. ; Spies, Marion ; Reinscheid, D. J. ; [et al.]

Springer

Archives of microbiology 168 (1997), S. 262-269

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ISSN: 1432-072X

Keywords: Key wordsCorynebacterium glutamicum ; Acetate ; metabolism ; Acetate kinase ; Phosphotransacetylase ; Isocitrate lyase ; Malate synthase ; Acetyl-CoA ; Acetyl-phosphate

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In the amino-acid-producing microorganism Corynebacterium glutamicum, the specific activities of the acetate-activating enzymes acetate kinase and phosphotransacetylase and those of the glyoxylate cycle enzymes isocitrate lyase and malate synthase were found to be high when the cells were grown on acetate (0.8, 2.9, 2.1, and 1.8 U/mg protein, respectively). When the cells were grown on glucose or on other carbon sources such as lactate, succinate, or glutamate, the specific activities were two- to fourfold (acetate kinase and phosphotransacetylase) and 45- to 100-fold (isocitrate lyase and malate synthase) lower, indicating that the synthesis of the four enzymes is regulated by acetate in the growth medium. A comparative Northern (RNA) analysis of the C. glutamicum isocitrate lyase and malate synthase genes (aceA and aceB) and transcriptional cat fusion experiments revealed that aceA and aceB are transcribed as 1.6- and 2.7-kb monocistronic messages, respectively, and that the regulation of isocitrate lyase and malate synthase synthesis is exerted at the level of transcription from the respective promoters. Surprisingly, C. glutamicum mutants defective in either acetate kinase or phosphotransacetylase showed low specific activities of the other three enzymes (phosphotransacetylase, isocitrate lyase, and malate synthase or acetate kinase, isocitrate lyase, and malate synthase, respectively) irrespective of the presence or absence of acetate in the medium. This result and a correlation of a high intracellular acetyl coenzyme A concentration with high specific activities of isocitrate lyase, malate synthase, acetate kinase, and phosphotransacetylase suggest that acetyl coenzyme A or a derivative thereof may be a physiological trigger for the genetic regulation of enzymes involved in acetate metabolism of C. glutamicum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002030050497

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Propionate oxidation in Escherichia coli: evidence for operation of a methylcitrate cycle in bacteria (1997)

Textor, Susanne ; Wendisch, Volker F. ; Graaf, Albert A. De ; [et al.]

Springer

Archives of microbiology 168 (1997), S. 428-436

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ISSN: 1432-072X

Keywords: Key words Escherichia coli ; Propionate oxidation ; 13C and 2H-labeling ; Methylcitrate cycle ; Glyoxylate ; cycle

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Escherichia coli grew in a minimal medium on propionate as the sole carbon and energy source. Initially a lag phase of 4–7 days was observed. Cells adapted to propionate still required 1–2 days before growth commenced. Incorporation of (2-13C), (3-13C) or (2H3)propionate into alanine revealed by NMR that propionate was oxidized to pyruvate without randomisation of the carbon skeleton and excluded pathways in which the methyl group was transiently converted to a methylene group. Extracts of propionate-grown cells contained a specific enzyme that catalyses the condensation of propionyl-CoA with oxaloacetate, most probably to methylcitrate. The enzyme was purified and identified as the already-known citrate synthase II. By 2-D gel electrophoresis, the formation of a second propionate-specific enzyme with sequence similarities to isocitrate lyases was detected. The genes of both enzymes were located in a putative operon with high identities (at least 76% on the protein level) with the very recently discovered prp operon from Salmonella typhimurium. The results indicate that E. coli oxidises propionate to pyruvate via the methylcitrate cycle known from yeast. The 13C patterns of aspartate and glutamate are consistent with the further oxidation of pyruvate to acetyl-CoA. Oxaloacetate is predominantly generated via the glyoxylate cycle rather than by carboxylation of phosphoenolpyruvate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002030050518

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