SEARCH

SEARCH BY CITATION

References

  • Chase, J.F.A., Pearson, D.J. and Tubbs, P.K. (1965) The preparation of crystalline carnitine acetyltransferase. Biochimica et Biophysica Acta 96, 162165.
  • Dunn, M.F., Encarnacion, G. and Araiza, G. (1996) Pyruvate carboxylase from Rhizobium etli: mutant characterization, nucleotide sequence, and physiological role. Journal of Bacteriology 178, 59605970.
  • Flikweert, M. (1999) Physiological roles of pyruvate decarboxylase in Saccharomyces cerevisiae. PhD thesis, Delft University of Technology, the Netherlands.
  • Flikweert, M.T., van der Zanden, L., Janssen, W.M., Steensma, H.Y., van Dijken, J.P. and Pronk, J.T. (1996) Pyruvate decarboxylase: an indispensable enzyme for growth of Saccharomyces cerevisiae on glucose. Yeast 12, 247257.
  • Hinman, L. and Blass, J. (1981) An NADH-linked spectrophotometric assay for pyruvate dehydrogenase complex in crude tissue homogenates. Journal of Biological Chemistry 256, 65836586.
  • Holzer, H. and Goedde, W. (1957) Zwei Wegen von pyruvate zu acetyl-coenzyme A in Hefe. Biochemistry 329, 175191.
  • Hua, Q. and Shimizu, K. (1999) Effect of dissolved oxygen concentration on the intracellular flux distribution for pyruvate fermentation. Journal of Biotechnology 65, 135147.
  • Hua, Q., Yang, C. and Shimizu, K. (1999) Metabolic flux analysis for efficient pyruvate fermentation using vitamin-auxotrophic yeast of Torulopsis glabrata. Journal of Bioscience and Bioengineering 87, 206213.
  • Hua, Q., Araki, M., Koide, Y. and Shimizu, K. (2001) Effects of glucose, vitamins, and DO concentrations on pyruvate fermentation using Torulopsis glabrata IFO 0005 with metabolic flux analysis. Biotechnology Progress 17, 6268.
  • Katakura, Y., Zhang, W., Zhuang, G., Omasa, T., Kishimoto, M., Goto, Y. and Suga, K. (1998) Effect of methanol concentration on the production of human-glycoprotein domain by a recombinant Pichia pastoris: a simple system for the control of methanol concentration using a semiconductor gas sensor. Journal of Fermentation and Bioengineering 86, 482487.
  • Li, Y., Chen, J. and Lun, S.Y. (2001a) Biotechnological production of pyruvic acid. Applied Microbiology and Biotechnology 57, 451459.
  • Li, Y., Chen, J., Lun, S. and Rui, X. (2001b) Efficient pyruvate production by a multi-vitamin auxotroph of Torulopsis glabrata: key role and optimization of vitamin levels. Applied Microbiology and Biotechnology 55, 680685.
  • Li, Y., Hugenholtz, J., Chen, J. and Lun, S. (2002) Enhancement of pyruvate production by Torulopsis glabrata using a two-stage oxygen supply control strategy. Applied Microbiology and Biotechnology 60, 101106.
  • Liu, L.-M., Li, Y., Du, G.C. and Chen, J. (2004) Fermentative production of pyruvate by Torulopsis glabrata: enhancement of productivity by addition of TCA cycle intermediates. Chinese Journal of Biotechnology 20, 115119 (in Chinese).
  • Miller, G.L. (1959) Use of dinitrosalicylic acid reagent for determination of reducing sugar. Analytical Chemistry 31, 426428.
  • Miwa, H., Hiyama, C. and Yamamoto, M. (1985) High-performance liquid chromatography of short-and long-chain fatty acids as 2-nitrophenylhydrazides. Journal of Chromatography 321, 165174.
  • Miyata, R. and Yonehara, T. (1996) Improvement of fermentative production of pyruvate from glucose by Torulopsis glabrata IFO 0005. Journal of Fermentation and Bioengineering 82, 475479.
  • Miyata, R. and Yonehara, T. (1999) Breeding of high-pyruvate-producing Torulopsis glabrata with acquired reduced pyruvate decarboxylase. Journal of Bioscience and Bioengineering 88, 173178.
  • Miyata, R., Yonehara, T., Yotsumoto, K. and Tsutsui, H. (1989) Preparing pyruvic acid by fermentation with Torulopsis species. JP patent 8901523. Toray Industries Inc. and Tokyo University of Agriculture and Technology.
  • Miyata, R., Igarashi, H. and Yonehara, T. (2000) Manufacture of pyruvic acid with (halogenated) pyruvic acid-resistant microorganisms. JP patent 2000078996. Toray Industries Inc. and Tokyo University of Agriculture and Technology.
  • Pronk, J.T., Wenzel, T.J., Luttik, M.A., Klaassen, C.C., Scheffers, W.A., Steensma, H.Y. and van Dijken, J.P. (1994) Energetic aspects of glucose metabolism in a pyruvate-dehydrogenase-negative mutant of Saccharomyces cerevisiae. Microbiology 140, 601610.
  • Pronk, J.T., Yde Steensma, H. and van Dijken, J.P. (1996) Pyruvate metabolism in Saccharomyces cerevisiae. Yeast 12, 16071633.
  • Van den Berg, M., de Jong-Gubbels, P., Kortland, C., van Dijken, J.P. and Pronk, J.T. (1996) The two acetyl-coenzyme A synthetases of Saccharomyces cerevisiae differ with respect to kinetic properties and transcriptional regulation. Journal of Biological Chemistry 271, 2895328959.
  • Yonehara, T., Miyata, R., Matsuno, H., Goto, M. and Yahanda, S. (2000) Development of fermentative production of pyruvate by metabolic control. Seibutsu Kogaku Kaishi 78, 5662 (in Japanese).