J.، yeast، R.,، Saccharomyces

protein production using the Pichia pastoris expression system. Yeast 2005, 22:249-270.
73. Moore,j.(2004).the use of probiotics in the calf: an overview. Cattle practice. 12:125-128.
74. Mu, Z., Yang, X and Yuan, H. (2010). Detection and identification of wild yeast in Koumiss. Can J Microbiol. 56(9):707-14.
75. Nielsen, J and Jewett, MC., (2008). Impact of systems biology on metabolic engineering of Saccharomyces cerevisiae. FEMS Yeast Res 8(1):122-31.
76. Nisiotou, AA and Nychas, GJ.(2013). Kazachstania hellenica sp. nov., a novel ascomycetous yeast from a Botrytis-affected grape must fermentation. PLoS One. 8(7): e69371.
77. Nwachukwu, I.N., Ibekwe, V.I., Nwabuez, R.N., and Anganwu, B.N. (2006) Afr. J. Biotechnol.,5,1725.
78. Odds, F.C., Bernaerts, R.(1994). CHROM agar Candida, a new differential isolation medium for presumptive identification of clinically important Candida species. J Clin Microbiol . 32: 1923–1929.
79. Olsson, L., Hahn–Hägerdal, B.(1996). Fermentation of lignocellulosic¬ hydrolysates for ethanol production .Enzyme and microbial technology, 18, 312 – 331.
80. Oura, E. (1974). Effect of aeration intensity on the biochemical composition of baker’s yeast. I. Factors affecting the type of metabolism. Biotechnol. Bioeng., Vol. 16, No. 9, pp.1197-1212.
81. Osho, A. ( 2005). Afr.j.biotechnol.,4,666.
82. Phaff, H.J., Starmer,W.T. (1987). Yeasts Associated with Plants, Insect and Soil. Pp. 123-180. In: The Yeasts, Vol. 1. Eds. Ros, A.H., Hamilton, J.S. Acadomic, London.
83. Phaff, H.J., Miller, M.W., Mark, E.M. (1978). The life of yeasts. 2nd edn. Harvard university press, Cambridge (USA) and London.
84. Papanikolaou, S., Galiotou-Panayotou, M., Chevalot, I and Komaitis, M. (2006) I of prospects. Appl. Biochem Microbiol.41, 418-425.
85. Paritpokee, S., Hall, G., Procop, G.(2005). Rapid identification of yeast isolates using BD BBLTM CHROM agarTM Candida. Conference presented, American society for microbiology.
86. Pasteur, L. (1866). Etudes surlavin, sees maladies, Causes quiles provoquent. Imprimerie Imperial, paris.
87. Pérez-Torrado, R. (2004). Estudio y mejora del proceso de producción industrial delevaduras vínicas. Universitat de València. Valencisa; PhDThesis.
88. Pérez-Torrado, R., Bruno-Barcena, J. M. and Matallana, E. (2005). Monitoring stress-related genes during the process of biomass propagation of Saccharomyces cerevisiae strains used for wine making. Appl.Environ.Microbiol., Vol. 71, No. 11, pp. 6831-6837.
89. Porro, D and Mattanovich, D. (2004). Recombinant protein production in yeasts. Methods Mol Biol, 267: 241-258.
90. Postma, E., Scheffers, WA and VanDijken, JP.( 1992). effect of benzoic acid on metabolic fluxes in yeast: a continuose-culture study on the regulation and alcoholic fermentation. Yeast. 517.
91. Pitt, J.I. (1974). Resistance of some food spoilage yeasts to preservatives. Food Technol. Australia 26:238–241.
92. Rodriguez, C., Martin-Yken, H., Arroyo, J., Hoheisel, J and Francois, J. (2003). Genome-wide analysis of the response to cell wall mutations in the yeast Saccharomyces cerevisiae.J. Biol. Chem. 278 (22), 20345–20357.
93. Reed, G. and Nagodawithana, T. W. (1988). Technology of Yeast Usage in Winemaking. Am. J. Enol. Vitic., Vol. 39, No. 1, pp. 83-90.
94. Remize, F., Roustan, JL., Sablayrolles, JM., Barre, P and Dequin, S. (1999) Glycerol Overproduction by Engineered Saccharomyces cerevisiae Wine Yeast Strains Leads to Substantial Changes in By-Product Formation and to a Stimulation of Fermentation Rate in Stationary Phase. Appl. Environ. Microbiol. 65(1): 143-149.
95. Robin, J.H., Le Milinaire, C., Stephan, G. (1987). Production of Artemia using mixed diets: control Of fatty acid content for marine fish larvae culture. In sorgeloos, P., Bengtson, D.A., Decleir, W., Jaspert, E.(eds), Artemia Research and its application. Volume 3. Ecology, culturing, Use in Aquaculture. Universa Press. Wettern, Belgium:437-447.
96. Rosenthal, S. A. and Furnari, D.( 1957). The use of a cycloheximide-chloramphenicol medium in routine culture for fungi. J. Invest. Dermat., 28: 367–371.
97. Safar, SV., Gomes, FC., Marques, AR., Lachance, MA and Rosa, CA., (2010). Kazachstania rupicola sp. nov., a yeast species isolated from water tanks of a bromeliad in Brazil. Int J Syst Evol Microbiol. 60(Pt 6):1473-6.
98. Sakai,k.(1999). Synopsis of the family callianassidae, with keys to subfamilies, genera and species, and the description of new taxa. Zoologische verhandelingen 326:1-152.
99. San-Millan, R., Ribacoba, L., Ponton, J and Quindos, G.(1996). Evaluation of a commercial medium for identification of Candida species. Eur J ClinMicrobiol Infect Dis. 15:153–158.
100. Sherman, F. (1991) Getting started with yeast. Methods Enzymol. 194, 3–21.
101. Shima, J., Kuwazaki, .,S.; Tanaka, F., Watanabe, H., Yamamoto, H., Nakajima, R., Tokashiki,T and Tamura, H. (2005). Identification of genes whose expressions are enhanced or reduced in baker’s yeast during fed-batch culture process using molasses medium by DNA microarray analysis. Int.J.Food Microbiol., Vol. 102, No. 1, pp. 63-71.
102. Siwicki, A.K.,Anderson, D.P and Rumsey, G.L. (1994). Dietary intake of immune stimulants by rainbow trout affectsnon-specific immunity and protection against furunculosis. Vet. Immunol. Immunopathol. 41, 125–139.
103. Soudi, M.R., Applied microbiology. (1999). fermentation process, Theory and experiment, Alzahra university press,Tehran.
104. Spencer, J.F.T and Spencer, D.M. (1997). Ecology: Where yeasts live. In yeasts in natural and Artifical Habitats. (eds Spencer, F.T., Spencer, D.M.), pp.33 -58 , springer verlag , Berlin , Heidelberg.
105. Spencer, J.F.T and Spencer, D.M. (1990).Yeast Technology.Springer-Verlag,Berlin.
106. Stephen, R., Hamilton, PB., Beata, B., Robert, CD., Huijuan, L., Teresa, M., Juergen, HN., Sebastian, R., Terrance, AS., Harry, W., Stefan, W and Tillman, UG. (2003). Production of Complex Human Glycoproteins in Yeast.Science 301: 1244-1246.
107. Stickney, R.R. (2001). Fish hatchery management, 2nd Edn.taxonomy relations and for identifying species among Yersinia isolates. American Fisheries Society., 1-30.
108. Sullivan, D and Coleman, D. (1998). Candida.dubliniensis: characteristics and identification. J Clin Microbiol.; 36:329–334.
109. Talloen, M. (1978). The use of locally available food for the mass-culture of the brine shrimp Artemia Salina.Bulletin of the Jepara Brackishwter Aquaculture Development.
110. Treco, D. A. and Lundbad, V. (1993) Basic techniques of yeast genetics, in Current Protocols in Molecular Biology (Ausubel, F. M., Brent, R., Kingston, R. E., Moore, D. D., Seidman, J. G., Smith J. A., and Struhl, K., eds.), John Wiley,New York, NY, pp. 13.1.1–13.1.7.
111. Van mulders, SE., Christianen,E., Saerens,SMG., Daenen,L., Verbelen,PJ., Willaert,R., Verstrepen,KJ and Delvaux,FR.(2009).phenotypic diversity of FLO protein family-mediated adhesion in saccharomyces cerevisiae . FEMS Yeast RES 9:178-190.
112. Van Uden, N. (1984). Effects of ethanol on the temperature relations of viability and growth in yeasts. CRC Crit. Revs. Biotechnol. 1:263–272.
113. Verduyn, C.E., Postma, W.A., Scheffers, J.P and Van Dijken,v. (1992). Effect of benzoic acid on metabolic fluxes in yeasts: a continuous-culture study on the regulation of respiration and alcoholic fermentation. Yeast8: 501-517.
114. Vu, V.H and Kim K. (2009). High-cell-density fed-batch culture of Saccharomyces cerevisiae

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