A model of xylitol production by the yeast Candida mogii

Bioprocess and Biosystems Engineering

Volumn 28, Issue 3, 2005, Pages 175-183

  Tochampa, Worasit ^a   Sirisansaneeyakul, Sarote ^a   Vanichsriratana, Wirat ^a   Srinophakun, Penjit ^a   Bakker, Huub H C ^b   Chisti, Yusuf ^b  

^a KASETSART UNIVERSITY   (Thailand)

^b MASSEY UNIVERSITY   (New Zealand)

Author keywords

Candida mogii; Mathematical model; Two substrate fermentation; Xylitol; Xylose

Indexed keywords

CARBON; COMPUTER SIMULATION; DATA ACQUISITION; GLUCOSE; MATHEMATICAL MODELS; XYLOSE; YEAST;

CANDIDA MOGII; TWO-SUBSTRATE FERMENTATION; XYLITOL;

ALCOHOLS;

CARBON; GLUCOSE; XYLITOL;

ARTICLE; BATCH FERMENTATION; CANDIDA; CANDIDA MOGII; CARBON SOURCE; CELL GROWTH; ENZYME SUBSTRATE; ENZYME SYNTHESIS; FUNGAL STRAIN; FUNGUS GROWTH; GENETIC ALGORITHM; GLUCOSE METABOLISM; MATHEMATICAL MODEL; MICROBIAL BIOMASS; PREDICTION; PRIORITY JOURNAL; VALIDATION PROCESS;

BIOREACTORS; CANDIDA; MODELS, BIOLOGICAL; XYLITOL; XYLOSE;

CANDIDA; CANDIDA MOGII; FUNGI;

EID: 27944462722     PISSN: 16157591     EISSN: None     Source Type: Journal    
DOI: 10.1007/s00449-005-0025-0     Document Type: Article

References (33)

1. Winkelhausen E, Kuzmanova S (1998) Microbial conversion of D-xylose to xylitol. J Ferment Bioeng 86:1-14
2. Kim JH, Ryu YW, Seo JH (1999) Analysis and optimization of a two-substrate fermentation for xylitol production using Candida tropicalis. J Ind Microbiol Biotechnol 22:181-186
3. Oh DK, Kim SY (1998) Increase of xylitol yield by feeding xylose and glucose in Candida tropicalis. Appl Microbiol Biotechnol 50:419-425
4. Tavares JM, Duarte LC, Amaral-Collaço MT, Gírio FM (2000) The influence of hexoses addition on the fermentation of D-xylose in Debaryomyces hansenii under continuous cultivation. Enzyme Microb Technol 26:743-747
5. Kilian SG, van Uden N (1988) Transport of xylose and glucose in the xylose-fermenting yeast Pichia stipitis. Appl Microbiol Biotechnol 27:545-548
6. Lee H, Sopher CR, Yau KYF (1996) Induction of xylose reductase and xylitol dehydrogenase activities on mixed sugars in Candida guilliermondii. J Chem Technol Biotechnol 66:375-379
7. Rosa SMA, Felipe MGA, Silva SS, Vitolo M (1998) Xylose reductase production by Candida guilliermondii. Appl Biochem Biotechnol 70/72:127-135
8. Aguiar Jr WB, Faria LFF, Couto MAPG, Araujo OQF, Pereira N Jr (2002) Growth model and prediction of oxygen transfer rate for xylitol production from D-xylose by C. guilliermondii. Biochem Eng J 12:49-59
9. Aranda-Barradas JS, Delia ML, Riba JP (2000) Kinetic study and modelling of the xylitol production using Candida parapsilosis in oxygen-limited culture conditions. Bioprocess Eng 22:219-225
10. Sirisansaneeyakul S, Staniszewski S, Rizzi M (1995) Screening of yeasts for production of xylitol form D-xylose. J Ferment Bioeng 80:565-570
11. Mayerhoff ZDVL, Roberto IC, Silva SS (1998) Production of xylitol by Candida mogii from rice straw hydrolysate. Appl Biochem Biotechnol 70/72:149-159
12. Baishan F, Hongwen C, Xiaolan X, Ning W, Zongding H (2003) Using genetic algorithms coupling neural networks in a study of xylitol production: medium optimization. Process Biochem 38:979-985
13. Grootjen DRJ, van der Lans RGJM, Luyben KCAM (1991) Conversion of glucose/xylose mixtures by Pichia stipitis under oxygen-limited conditions. Enzyme Microb Technol 13:648-654
14. Nakamura Y, Sawada T, Inoue E (2001) Mathematical model for ethanol production from mixed sugars by Pichia stipitis. J Chem Technol Biotechnol 76:586-592
15. Bisswanger H (2002) Enzyme kinetics: principles and methods. Wiley-VCH, Weinheim
16. 13C} xylose metabolism in Pichia stipitis under aerobic and anaerobic conditions. Appl Microbiol Biotechnol 28:293-296
17. Walker GM (1998) Yeast physiology and biotechnology. Wiley, Chichester
18. Stephanopoulos GN, Aristidou AA, Nielsen J (1998) Metabolic engineering: principles and methodologies. Academic, San Diego
19. Deschatelets L, Yu EKC (1986) A simple pentose assay for biomass conversion studies. Appl Microbiol Biotechnol 24:379-397
20. Adler L, Gustafsson L (1980) Polyhydric alcohol production and intracellular amino acid pool in relation to halotolerance of the yeast Debaromyces hansenii. Arch Microbiol 124:123-130
21. Houck CR, Joines JA, Kay MG (1995) A genetic algorithm for function optimization: a matlab implementation. Technical Report NCSU-IE Technical Report 95-09, North Carolina State University
22. Lee H (1992) Reversible inactivation of D-xylose utilization by D-glucose in the pentose-fermenting yeast Pachysolen tannophilus. FEMS Microbiol Lett 92:1-4
23. Jeppsson H, Holmgren K, Hahn-Hägerdal B (1999) Oxygen-dependent xylitol metabolism in Pichia stipitis. Appl Microbiol Biotechnol 53:92-97
24. Leathers TD, Gupta SC (1997) Xylitol and riboflavin accumulation in xylose-grown cultures of Pichia guilliermondii. Appl Microbiol Biotechnol 47:58-61
25. Barbosa MFS, de Medeiros MB, Mancilha IM, Schneider H, Lee H (1988) Screening of yeasts for production of xylitol from D-xylose and some factors which affect xylitol yield in Candida guilliermondii. J Ind Microbiol 3:241-251
26. Sirisansaneeyakul S (1993) Reaktionstechnische Untersuchungen zur mikrobiellen Produktion von Xylit. PhD Thesis, Universitaet Stuttgart, Stuttgart
27. Kocková-Kratochvílová A (1990) Yeasts and yeast-like organisms. VCH, New York
28. Voleskey B, Votruba J (1992) Modeling and optimization of fermentation processes. Elsevier, Amsterdam
29. Roels JA (1983) Energetics and kinetics in biotechnology. Elsevier, Amsterdam
30. Lucas C, van Uden N (1986) Transport of hemicellulose monomers in the xylose-fermenting yeast Candida shehatae. Appl Microbiol Biotechnol 23:491-495
31. Nobre A, Lucas C, Leǎo C (1999) Transport and utilization of hexoses and pentoses in the halotolerant yeast Debaryomyces hansenii. Appl Environ Microbiol 65:3594-3598
32. Rogers HJ, Perkins HR (1969) Cell walls and membranes. Spon, London
33. Jain MK (1972) The biomolecular lipid membrane. Litton, New York