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Bioscience, Biotechnology, and Biochemistry Volume 62, 1998 - Issue 10
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Original Articles

Selective Fermentation of Xylose by a Mutant of Tetragenococcus halophila Defective in Phosphoenolpyruvate:Mannose Phosphotransferase, Phosphofructokinase, and Glucokinase

Keietsu ABEMicrobiology Group, Research and Development Division, Kikkoman Corporation
&
Takeshi HIGUCHIMicrobiology Group, Research and Development Division, Kikkoman Corporation
Pages 2062-2064 | Received 01 Jun 1998, Published online: 22 May 2014

  • 1) Abe, K. and Uchida, K., Correlation between derepression of catabolite control of xylose metabolism and a defect in the phosphoenolpyruvate:mannose phosphotransferase system in Pediococcus halophilus. J. Bacteriol., 171, 1793-1800 (1989).
  • 2) Abe, K. and Uchida, K., Non-PTS uptake and subsequent metabolism of glucose in Pediococcus halophilus as demonstrated with a double mutant defective in phosphoenolpyruvate:mannose phosphotransferase system and in phosphofructokinase. Arch. Microbiol., 153, 537-540 (1990).
  • 3) Abe, K. and Uchida, K., Release of glucose-mediated catabolite repression due to a defect in the membrane fraction of phosphoenolpyruvate:mannose phosphotransferase system in Pediococcus halophilus. Arch. Microbiol., 155, 537-540 (1991).
  • 4) Thompson, J. and Chassy, B. M., Intracellular phosphorylation of glucose analogs via the phosphoenolpyruvate:mannose-phosphotransferase system in Streptococcus lactis. J. Bacteriol., 162, 224-234 (1985).
  • 5) Kanbe, C. and Uchida, K., NADH dehydrogenase activity of Pediococcus halophilus as a factor determining its reducing force. Agric. Biol. Chem., 51, 504-514 (1987).
  • 6) Takeda, Y., Takase, K., Yamato, I., and Abe, K., Sequencing and characterization of xyl operon of a Gram-positive bacterium, Tetragenococcus halophila. Appl. Environ. Microbiol., 64, 2513-2519 (1998).
  • 7) Saier, M. H., Jr., Chauvaux, S., Deutscher, J., Reizer, J., and Ye, J. J., Protein phosphorylation and regulation of carbon metabolism in Gram-negative versus Gram-positive bacteria. Trends Biochem. Sci., 20, 267-271 (1995).
  • 8) Gosseringer, R., Kuster, E., Galinier, A., Deutscher, J., and Hillen, W., Cooperative and non-cooperative DNA binding modes of catabolite control protein CcpA from Bacillus megaterium result from sensing two different signals. J. Mol. Biol., 266, 665-676 (1997).
  • 9) Kraus, A., Hueck, C., Gartner, D., and Hillen, W., Catabolite repression of the Bacillus subtilis xyl operon involves a cis element functional in the context of an unrelated sequence, and glucose exerts additional xylR-dependent repression. J. Bacteriol., 176, 1738-1745 (1994).

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