Food Biochemistry and Food Processing (2 edition)

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648 Part 5: Fruits, Vegetables, and Cereals

Fujii T et al. 1994. Molecular cloning, sequence analysis, and ex-
pression of the yeast alcohol acetyltransferase gene.Appl Environ
Microbiol60: 2786–2792.
Fukuda K et al. 1998. Balance of activities of alcohol acetyltrans-
ferase and esterase inSaccharomyces cerevisiaeis important
for production of isoamyl acetate.Appl Environ Microbiol64:
4076–4078.
Gaur NK, Klotz SA. 1997. Expression, cloning, and characteriza-
tion of aCandida albicansgene, ALA1, that confers adherence
properties uponSaccharomyces cerevisiaefor extracellular ma-
trix proteins.Infect Immun65: 5289–5294.
Gee DA, Ramirez WF. 1994. A flavour model for beer fermentation.
JInstBrew100: 321–329.
Geiger E, Piendl A. 1976. Technological factors in the formation of
acetaldehyde during fermentation.MBAA Tech Quart13: 51–61.
Gjermansen C et al. 1988. Towards diacetyl-less brewers’ yeast. In-
fluence ofilv2andilv5mutations.J Basic Microbiol28: 175–183.
Godtfredsen SE et al. 1983. Application of the acetolactate de-
carboxylase fromLactobacillus caseifor accelerated matura-
tion of beer. Proceedings of the European Brewery Convention
Congress, London, pp. 161–168.
Godtfredsen SE et al. 1984. Occurrence ofα-acetolactate decar-
boxylases among lactic acid bacteria and their utilization for
maturation of beer.Appl Microbiol Biotechnol20: 23–28.
Goldenthal MJ, Vanoni M. 1990. Genetic mapping and biochem-
ical analysis of mutants in the maltose regulatory gene of the
MAL1locus ofSaccharomyces cerevisiae.Arch Microbiol154:
544–549.
Goldenthal MJ et al. 1987. Regulation ofMALgene expression in
yeast: gene dosage effects.Mol Gen Gen209: 508–517.
Goossens E et al. 1993. Decreased diacetyl production in lager
brewing yeast by integration of theILV5gene. Proceedings of the
European Brewery Convention Congress, Oslo, pp. 251–258.
Green CB et al. 2004. T-PCR detection ofCandida albicans ALS
gene expression in the reconstituted human epithelium (RHE)
model of oral candidiasis and in model biofilms.Microbiology
150: 267–275.
Guo B et al. 2000. ASaccharomycesgene family involved in inva-
sive growth, cell-cell adhesion, and mating.Proc Natl Acad Sci
USA97: 12158–12163.
Hammond JRM. 1993. Brewer’s yeast. In: AH Rose, JS Harrison
(eds.)The Yests. Academic Press, London, pp. 7–67.
Han E-K et al. 1995. Characterization ofAGT1encoding a general
α-glucoside transporter fromSaccharomyces.Mol Microbiol17:
1093–1107.
Hansen J, Kielbrandt MC. 1996a. Inactivation ofMET10in brewers’
yeast specifically increases SO 2 formation during beer produc-
tion.Nat Biotechnol14: 1587–1591.
Hansen J, Kielbrandt MC. 1996b. Inactivation ofMET2in brewers’
yeast increases the level of sulphite in beer.J Biotechnol50:
75–87.
Hardwick WA. 1995. History and antecedents of brewing. In: WA
Hardwick (ed.)Handbook of Brewing. Marcel Dekker, New York,
pp. 37–51.
Haukeli AD, Lie S. 1978. Conversion ofα-acetolactate and removal
of diacetyl: a kinetic study.JInstBrew84: 85–89.
Haukeli AD, Lie S. 1979. Yeast growth and metabolic changes dur-
ing brewery fermentation.Proceedings of the European Brewery
Convention Congress, Berlin, pp. 461–473.

Hazelwood LA et al. 2008. The Ehrlich pathway for fusel alcohol
production: a century of research on Saccharomyces cerevisiae
metabolism.Appl Environ Microbiol74: 2259–2266.
Hegarty PK et al. 1995. Phenyl ethanol—a factor determining lager
character. Proceedings of the European Brewery Convention
Congress, pp. 515–522.
Hirata D et al. 1992. Stable overproduction of isoamylalcohol by
S. cerevisiaewith chromosome-integrated copies of theLEU4
genes.Biosci Biotechnol Biochem56: 1682–1683.
Hough JS et al. 1982.Malting and Brewing Science—Volume 2:
Hopped Wort and Beer. Chapman and Hall, London.
Hounsa CG et al. 1998. Role of trehalose in survival ofSac-
charomyces cerevisiaeunder osmotic stress.Microbiology144:
671–680.
Hoyer LL. 2001. TheALSgene family ofCandida albicans.Trends
Microbiol9: 176–180.
Hoyer LL et al. 1998. Identification ofCandida albicans ALS2and
ALS4and localization ofALSproteins to the fungal cell surface.
J Bacteriol180: 5334–5343.
Huuskonen A et al. 2010. Selection from industrial lager yeast
strains of variants with improved fermentation performance in
very-high-gravity worts.Appl Environ Microbiol76: 1563–1573.
Hu Z et al. 1995.MIG1-dependent andMIG1-independent glucose
regulation ofMALgene expression inSaccharomyces cerevisiae.
Curr Genet28: 258–266.
Inoue T. 1995. Development of a two-stage immobilized yeast
fermentation system for continuous beer brewing. Proceed-
ings of the European Brewery Convention Congress, Brussels,
pp. 25–36.
Inoue T, Yamamoto Y. 1970. Diacetyl and beer fermentation. Pro-
ceedings of the Annual Meeting of the American Society of
Brewing Chemists, pp. 198–208.
Inoue T et al. 1968. Mechanism of diacetyl formation in beer. Pro-
ceedings of the Annual Meeting of the American Society of
Brewing Chemists, MN, pp. 158–165.
Iverson WG. 1994. Ethyl acetate extraction of beer: quantitative
determination of additional fermentation by-products.JAmSoc
Brew Chem52: 91–95.
Jakobsen M. 1982. The effect of yeast handling procedures on yeast
oxygen requirement and fermentation. Proc. Inst. Brew. (Aust.
N.Z. Section) Conv, Adelaide, pp. 132–137.
Jensen S. 1993. Using ALDC to speed up fermentation. Brewers’
Gardian, September: 55–56.
Jespersen L et al. 1999. Multipleα-glucoside transporter genes in
brewer’s yeast.Appl Environ Microbiol65: 450–456.
Jin YL, Speers RA. 1999. Flocculation ofSaccharomyces cere-
visiae.Food Res Int31: 421–440.
Kacl ́ıkov ́a E et al. 1992. Fumaric acid overproduction in yeast mu-
tants deficient in fumarase.FEMS Microbiol Lett91: 101–106.
K ̈appeli O et al. 1985. Transient responses ofSaccharomyces
uvarumto a change of growth-limiting nutrient in continuous
culture.J Gen Microbiol131: 47–52.
Karel SF et al. 1985. The immobilization of whole cells: engineering
principles.Chem Eng Sci40: 1321–1353.
Klein CJ.L et al. 1996. Alleviation of glucose repression of maltose
metabolism byMIG1disruption inSaccharomyces cerevisiae.
Appl Environ Microbiol62: 4441–4449.
Klopper WJ et al. 1986. Organic acids and glycerol in beer.J Inst
Brew92: 311–318.
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