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Literaturverzeichnis<br />
______________________________________________________________________<br />
Kulhanek M. 1989. Microbial dehydrogenations of monosaccharides, p. 147. In<br />
Seidleman S. L. (ed.), Advances in applied microbiology, vol. 34. Academic<br />
Press Inc., San Diego.<br />
Lazarus R, Seymour J (1986) Determination of 2-keto-L-gulonic and other<br />
ketoaldonic and aldonic acids produced by ketogenic bacterial fermentation.<br />
Anal Biochem 157:360.<br />
Liese A, Seelbach K, Wandrey C. 2000. Industrial Biotransformations. Wiley-VCH,<br />
Weinheim.<br />
Los J M, Gaspar N J (1960) Kinetics and mechanism of the cyclic hemiacetal ring<br />
opening in 2-keto-L-gulonic acid. A polarographic study. Recl Trav Chim Pays-<br />
Bas 79:112.<br />
Lusta K A, Reshetilov A N (1998) Physiological and biochemical features of<br />
Gluconobacter oxydans and prospects of their use in biotechnology and<br />
biosensor systems (review). Appl Biochem Microbiol 34:307.<br />
Macauley S, McNeil B, Harvey L M (2001) The genus Gluconobacter oxydans and its<br />
applications in biotechnology. Crit Rev Biotechnol 21:1.<br />
Madej E, Grzeda M (2000) Properties, effects of insufficient supply and ranges of<br />
application of vitamin C in animal therapy. Med Weter 56:627.<br />
Maremonti M, Greco G, Wichmann R (1996) Characterisation of 2,5-diketo-Dgluconic<br />
acid reductase from Corynebacterium sp. Biotechnol Lett 18:845.<br />
Matsushita K, Shinagawa E, Ameyama M (1982) D-Gluconate dehydrogenase from<br />
bacteria, 2-keto-D-Gluconate-yielding, membrane-bound. Methods Enzymol<br />
89:187.<br />
Matsushita K, Toyama H, Adachi O (1994) Respiratory chains and bioenergetics of<br />
acetic acid bacteria. Adv Microb Physiol 36:247.<br />
Miller J V, Estell D A, Lazarus R A (1987) Purification and characterization of 2,5-<br />
diketo-D-gluconate reductase from Corynebacterium sp. J Biol Chem 262:9016.<br />
Miller S L, Smith-Magowan D (1990) The thermodynamics of the Krebs cycle and<br />
related compounds. J Phys Chem Ref Data 19:1049.<br />
Minör D. 2007. Fermentative Herstellung von Enterokinase mit rekombinantem<br />
Escherichia coli. Hochschule Darmstadt.<br />
Ohrem H L. 1995. Reaktionstechnische Untersuchung der Glycerinoxidation mit<br />
Gluconobacter oxydans zur Entwicklung eines kontinuierlichen<br />
Fermentationsverfahren. Dissertation. RWTH Aachen.<br />
Oosterhuis N M G, Kossen N W F, Olivier A P C, Schenk E S (1985) Scale-down<br />
and optimization studies of the gluconic acid fermentation by Gluconobacter<br />
oxydans. Biotechnol Bioeng 27:711.<br />
Perlman D (1955) Spectrophotometric method for the determination of 5-keto-Dgluconic<br />
acid. J Biol Chem 215:353.<br />
Poget C, Dubuis B, von Stockar U (1994) Acetate production from lactate and glucose<br />
fermentation by Gluconobacter oxydans. Biotechnol. Lett 16:1293.<br />
Pronk J T, Levering P R, Olijve W, Vandijken J P (1989) Role of NADP-dependent<br />
and quinoprotein glucose dehydrogenases in gluconic acid production by<br />
Gluconobacter oxydans. Enzyme Microb Technol 11:160.<br />
Qazi G N, Parshad R, Verma V, Chopra C L, Buse R, Trager M, Onken U (1991)<br />
Diketo-gluconate fermentation by Gluconobacter oxydans. Enzyme Microb<br />
Technol 13:504.<br />
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