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Physiological functions of hexose transport and hexose phosphorylation in Saccharomycescerevisiae.
Diderich, J.A.
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Citation for published version (APA):Diderich, J. A. (2001). Physiological functions of hexose transport and hexose phosphorylation inSaccharomyces cerevisiae. Enschede: Ipskamp BV.
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References s
1.. Adam, A.C., Prieto, J.A., Rubio-Texeira, M., and Polaina, J. (1999) Construction of a lactose-assimilating
strainn of baker's yeast. Yeast 15,1299-1305
2.2. Adams, J., Paquin, C, Oeller, P.W., and Lee, L.W. (1985) Physiological characterization of adaptive
clonesclones in evolving populations of the yeast, Saccharomyces cerevisiae. Genetics 110,173-185
3.. Alms, G.R., Sanz, P., Carlson, M., and Haystead, T.A. (1999) Reglp targets protein phosphatase 1 to
dephosphorylatee hexokinase II in Saccharomyces cerevisiae: characterizing the effects of a phosphatase
subunitt on the yeast proteome. EMBO J. 18,4157-4168
4.. Andre, B. (1995) An overview of membrane transport proteins in Saccharomyces cerevisiae. Yeast 11,
1575-1611 1
5.. Bailey, R.B., Benitez, T., and Woodward, A. (1982) Saccharomyces cerevisiae mutants resistant to
catabolitee repression: Use in cheese whey hydrolysate fermentation. Appl Env Microbiol 44,631-639
6.. Bakker, B.M., Walsh, M.C., ter Kuile, B.H., Mensonides, F.I., Michels, P.A., Opperdoes, F.R., and
Westerhoff,, H.V. (1999) Contribution of glucose transport to the control of the glycolytic flux in
TrypanosomaTrypanosoma brucei. Proc Natl Acad Sci USA 96, 10098-11103
7.. Barnett, J.A. (1997) in Yeast sugar metabolism (Zimmermann, F.K., and Entian, K.-D., eds), Technomic
Publishingg Company Inc. Basel
8.. Barnett, J.A. (1998) A history of research on yeasts. 1: Work by chemists and biologists 1789-1850.
YeastYeast 14,1439-1451
9.. Barnett, J.A. (2000) A history of research on yeasts. 2: Louis Pasteur and his contemporaries, 1850-1880.
YeastYeast 16,755-771
10.. Behlke, J., Heidrich, K.( Naumann, M., Muller, E.C., Otto, A., Reuter, R., and Kriegel, T. (1998)
Hexokinasee 2 from Saccharomyces cerevisiae: regulation of oligomeric structure by in vivo
phosphorylationn at serine-14. Biochemistry 37,11989-11995
11.. Bergmeyer, H.U. (1974) Methods of Enzymatic Analysis, Verlag Chemie GmbH, Weinheim
12.. Beullens, M., Mbonyi, K„ Geerts, L., Gladines, D., Detemerie, K., Jans, A.W.H., and Thevelein, J.M.
(1988)) Studies on the mechanism of the glucose-induced cAMP signal in glycolysis and glucose
repressionn mutants of the yeast Saccharomyces cerevisiae. Eur J Biochem 172,227-231
13.. Bisson, L.F. (1988) High-affinity glucose transport in Saccharomyces cerevisiae is under general glucose
repressionn control. J Bacteriol 170,4838-4845
14.. Bisson, L.F., Coons, D.M., Kruckeberg, A.L., and Lewis, D.A. (1993) Yeast sugar transporters. Crit Rev
BiochemBiochem Mol Biol 28,259-308
15.. Bisson, L.F., and Fraenkel, D.G. (1983) Involvement of kinases in glucose and fructose uptake by
SaccharomycesSaccharomyces cerevisiae. Proc Nat Acad Sci USA 80, 1730-1734
16.. Bisson, L.F., and Fraenkel, D.G. (1984) Expression of kinase-dependent glucose uptake in
SaccharomycesSaccharomyces cerevisiae. J Bacteriol 159,1013-1017
17.. Blazquez, M.A., Lagunas, R., Gancedo, C, and Gancedo, J.M. (1993) Trehalose-6-phosphate, a new
regulatorr of yeast glycolysis that inhibits hexokinases. FEBS Lett 329,51 -54
18.. Blom, J., Teixeira de Mattos, M.J., and Grivell, L.A. (2000) Redirection of the respiro-fermentative flux
distributionn in Saccharomyces cerevisiae by overexpression of the transcription factor Hap4p. Appl Env
MicrobiolMicrobiol 66,1970-1973
19.. Boles, E., and Hollenberg, C.P. (1997) The molecular genetics of hexose transport in yeasts. FEMS
Microbiol RevMicrobiol Rev 21, 85-111
References s
20.. Brown, C.J., Todd, K.M., and Rosenzweig, R.F. (1998) Multiple duplications of yeast hexose transport
geness in response to selection in a glucose-limited environment. Mol Biol Evol 15,931-942
21.. Cardenas, M.L., Cornish-Bowden, A., and Ureta, T. (1998) Evolution and regulatory role of the
hexokinases.. Biochim Biophys Acta 1401,242-264
22.. Carlson, M. (1998) Regulation of glucose utilization in yeast. Curr Opin Genet Dev 8,560-564
23.. Carlson, M. (1999) Glucose repression in yeast. Curr Opin Microbiol Microbiol 2,202-207
24.. Carrudiers, A., and Helgerson, A.L. (1991) Inhibitions of sugar transport produced by ligands binding at
oppositee sides of the membrane. Evidence for simultaneous occupation of the carrier by maltose and
cytochalasinn B. Biochemistry 30,3907-3915
25.. Celenza, J.L., Marshall-Carlson, L., and Carlson, M. (1988) The yeast SNF3 gene encodes a glucose
transporterr homologous to the mammalian protein [published erratum appeared in Proc Natl Acad Sci U
SS A 1988 Aug;85(15):5530]. Proc Natl Acad Sci USA 85,2130-2134
26.. Chen, X.J., Wesolowski-Louvel, M., and Fukuhara, H. (1992) Glucose transport in the yeast
KluyveromycesKluyveromyces lactis. U. Transcriptional regulation of the glucose transporter gene RAG1. Mol Gen
GenetGenet 233,97-105
27.. Chervitz, S.A., Aravind, L., Sherlock, G., Ball, C.A., Koonin, E.V., Dwight, S.S., Harris, M.A., Dolinski,
K.,, Mohr, S., Smith, T., Weng, S., Cherry, J.M., and Botstein, D. (1998) Comparison of the complete
proteinn sets of worm and yeast: orthology and divergence. Science 282,2022-2028
28.. Chu, S., DeRisi, J., Eisen, M., Mulholland, J., Botstein, D., Brown, P.O., and Herskowitz, I. (1998) The
transcriptionall program of sporulation in budding yeast [published erratum appeared in Science 1998 Nov
20;282(5393):1421].. Science 282,699-705
29.. Ciriacy, M., and Reifenberger, E. (1997) in Yeast Sugar Metabolism. Biochemistry, Genetics,
Biotechnology,Biotechnology, and Applications (Zimmermann, F.K., and Entian, K.-D., eds), pp. 45-65, Technomic,
Lancaster,, PA
30.. Coons, D.M., Boulton, R.B., and Bisson, L.F. (1995) Computer-assisted nonlinear regression analysis of
thee multicomponent glucose uptake kinetics of Saccharomyces cerevisiae. J Bacterial 177,3251-3258
31.. Coons, D.M., Vagnoli, P., and Bisson, L.F. (1997) The C-terminal domain of Snf3p is sufficient to
complementt the growth defect of snf3 null mutations in Saccharomyces cerevisiae: SNF3 functions in
glucosee recogntion. Yeast 13,9-20
32.. Crabtree, H.G. (1929) Observations on the carbohydrate metabolism of tumours. Biochem J 23,536-545
33.. De Deken, R.H. (1966) The Crabtree effect and its relation to the petite mutation. J Gen Microbiol 44,
157-165 5
34.. De Koning, W., and Van Dam, K. (1992) A method for the determination of changes of glycolytic
metabolitess in yeast on a subsecond time scale using extraction at neutral pH. Anal Biochem 204,118-123
35.. DeRisi, J.L., Iyer, V.R., and Brown, P.O. (1997) Exploring the metabolic and genetic control of gene
expressionn on a genomic scale. Science 278,680-686
36.. Does, A.L., and Bisson, L.F. (1989) Comparison of glucose uptake kinetics in different yeasts. J
BacteriolBacteriol 171, 1303-1308
37.. Duarte, F.L., Pais, C, Spencer-Martins, I., and Leao, C. (1999) Distinctive electrophoretic isoenzyme
profiless in Saccharomyces sensu stricto. IntJSyst Bacteriol 49, 1907-1913
38.. Eden, K.J. (1993) History of German Brewing. Zymurgy 16, Issue 4
39.. Egilsson, V., Gudnason, V., Jonasdottir, A., Ingvarsson, S., and Andresdottir, V. (1986) Catabolite
repressivee effects of 5-thio-D-glucose on Saccharomyces cerevisiae. J Gen Microbiol 132,3309-3313
40.. Eisenberg, D., Marcotte, E.M., Xenarios, I., and Yeates, T.O. (2000) Protein function in the post-genomic
era.. Nature 405, 823-826
138 8
References s
41.. Eliasson, A., Boles, E., Johansson, B„ Osterberg, M., Thevelein, J.M., Spencer-Martins, I., Juhnke, H.,
andd Hahn-Hagerdal, B. (2000) Xylulose fermentation by mutant and wild-type strains of
ZygosaccharomycesZygosaccharomyces and Saccharomyces cerevisiae. Appl Microbiol Biotechnol 53,376-382
42.. Entian, K.D. (1980) Genetic and biochemical evidence for hexokinase PII as a key enzyme involved in
carbonn catabolite repression in yeast Mol Gen Genet 178,633-637
43.. Entian, K.D., and Frohlich, K.U. (1984) Saccharomyces cerevisiae mutants provide evidence of
hexokinasee Pu as a bifunctional enzyme with catalytic and regulatory domains for triggering carbon
catabolitee repression. J Bacteriol 158,29-35
44.. Entian, K.D., Hilberg, F., Opitz, H., and Mecke, D. (1985) Cloning of hexokinase structural genes from
SaccharomycesSaccharomyces cerevisiae mutants with regulatory mutations responsible for glucose repression. Mol Cell
BiolBiol 5,3035-3040
45.. Entian, K.D., and Zimmermann, F.K. (1980) Glycolytic enzymes and intermediates in carbon catabolite
repressionn mutants of Saccharomyces cerevisiae. Mol Gen Genet 177,345-350
46.. Entian, K.D., Zimmermann, F.K., and Scheel, I. (1977) A partial defect in carbon catabolite repression in
mutantss of Saccharomyces cerevisiae with reduced hexose phosphyorylation. Mol Gen Genet 156, 99-
105 5
47.. Fell, D.A. (1992) Metabolic control analysis: a survey of its theoretical and experimental development.
BiochemBiochem J 286,313-330
48.. Fell, D.A. (1998) Increasing the flux in metabolic pathways: A metabolic control analysis perspective.
BiotechnolBiotechnol Bioeng 58,121-4
49.. Ferea, T.L., Botstein, D., Brown, P.O., and Rosenzweig, R.F. (1999) Systematic changes in gene
expressionn patterns following adaptive evolution in yeast. Proc Natl Acad Sci USA 96,9721-9726
50.. Fields, S., and Song, O. (1989) A novel genetic system to detect protein-protein interactions. Nature 340,
245-246 6
51.. Foury, F. (1997) Human genetic diseases: a cross-talk between man and yeast. Gene 195,1-10
52.. Foury, F., Roganti, T., Lecrenier, N., and Purnelle, B. (1998) The complete sequence of the mitochondrial
genomee off Saccharomyces cerevisiae. FEBS Lett 440,325-331
53.. Fuhrmann, G.F., and Völker, B. (1993) Misuse of graphical analysis in nonlinear sugar transport kinetics
byy Eadie-Hofstee plots. Biochim Biophys Acta 1145,180-182
54.. Gamo, FJ., Lafuente, M.J., and Gancedo, C. (1994) The mutation DGT1-1 decreases glucose transport
andd alleviates carbon catabolite repression in Saccharomyces cerevisiae. J Bacteriol 176,7423-7429
55.. Gan, Z., Ellis, P.R., and Schofield, J,D. (1995) Gas cell stabilisation and gas retention in wheat bread
dough.. J Cereal Sci 21,215-230
56.. Gancedo, C, and Serrano, R. (1989) Energy-yielding metabolism. The yeasts (Rose, A.H., and Harrison,
J.S.,, Eds.), Academic Press Inc, London
57.. Gancedo, J.M. (1992) Carbon catabolite repression in yeast. Eur J J Biochem 206,297-313
58.. Gancedo, J.M. (1998) Yeast carbon catabolite repression. Microbiol Mol Biol Rev 62,334-361
59.. Gancedo, J.M., Clifton, D., and Fraenkel, D.G. (1977) Yeast hexokinase mutants. /Biol Ckem 252,4443-
4444 4
60.. Geurts, T.G.E., De Kok, H., and Roels, J.A. (1980) A quantitative description of the growth of
SaccharomycesSaccharomyces cerevisiae CBS 426 on a mixed substrate of glucose and ethanol. Biotech Bioeng 22,
2031-2043 3
61.. Gietz, R.D., and Schiestl, R.H. (1995) Transforming yeast with DNA. Methods Mol Cell Biol 5,255-269
62.. Goffeau, A. (2000) Four years of post-genomic life with 6000 yeast genes. FEBS Lett 480,37-41
139 9
References s
63.. Goffeau, A., Barrell, B.G., Bussey, H., Davis, R.W., Dujon, B., Feldmann, H., Galibert, F., Hoheisel,
J.D.,, Jacq, C, Johnston, M., Louis, E.J., Mewes, H.W., Murakami, Y., Philippsen, P., Tettelin, H., and
Oliver,, S.G. (1996) Life with 6000 genes. Science 274,546, 563-567
64.. Goncalves, P., Rodrigues De Sousa, H., and Spencer-Martins, I. (2000) FSY1, a novel gene encoding a
specificc Fructose/H(+) symporter in the type strain of Saccharomyces carlsbergensis. J Bacteriol 182,
5628-5630 0
65.. Grivell, L.A., and Planta, R.J. (1990) Yeast: the model 'eurokaryote'? Trends Biotechnol 8,241-243
66.. Groen, A.K., Wanders, R.J.A., Westerhoff, H.V., Van der Meer, R., and Tager, J.M. (1982)
Quantificationn of the contribution of various steps to the control of mitochondrial respiration. J Biol
ChemChem 257,2754-2757
67.. Guillamón, J.M., Barrio, E., Huerta, T., and Querol, A. (1994) Rapid characterization of four species of
thee Saccharomyces sensu stricto complex according to mitochondrial DNA patterns. Int J Syst Bacteriol
44,708-714 4
68.. He, R.-Q., Li, C.-Y., Xu, J., and Zhao, X.-A. (1996) Estimation of the optimal concentrations of residual
sugarr and cell growth rate for a fed-batch culture of Saccharomyces cerevisiae. Appl Biochem Biotechnol
60,229-244 4
69.. Heinisch, J. (1986) Isolation and characterization of the two structural genes coding for
phosphofructokinasee in yeast. Mol Gen Genet 202,75-82
70.. Helling, R.B., Vargas, C.N., and Adams, J. (1987) Evolution of Escherichia coli during growth in a
constantt environment. Genetics 116, 349-358
71.. Heredia, C.F., Sols, A., and DelaFuente, G. (1968) Specificity of the constitutive hexose transport in
yeast.. Eur J Biochem 5,321-329
72.. Herrero, P., Galindez, J., Ruiz, N., Martinez-Campa, C, and Moreno, F. (1995) Transcriptional
regulationn of the Saccharomyces cerevisiae HXK1, HXK2 HXK2 and GLK1 genes. Yeast 11,137-144
73.. Herrero, P., Martinez-Campa, C., and Moreno, F. (1998) The hexokinase 2 protein participates in
regulatoryy DNA-protein complexes necessary for glucose repression of the SUC2 gene in Saccharomyces
cerevisiae.cerevisiae. FEBS Lett 434,71-76
74.. Hirayama, T., Maeda, T., Saito, H., and Shinozaki, K. (1995) Cloning and characterization of seven
cDNAss for hyperosmolarity-responsive (HOR) genes of Saccharomyces cerevisiae. Mol Gen Genet 249,
127-138 8
75.. Hoffman, C.S., and Winston, F. (1987) A ten-minute DNA preparation from yeast efficiently releases
autonomouss plasmids for transformation of Escherichia coli. Gene Gene 57,267-272
76.. Horak, J. (1997) Yeast nutrient transporters. Biochim Biophys Acta 1331,41 -79
77.. Hughes, T.R., Roberts, C.J., Dai, H., Jones, A.R., Meyer, M.R., Slade, D., Burchard, J., Dow, S., Ward,
T.R.,, Kidd, M.J., Friend, S.H., and Marton, M.J. (2000) Widespread aneuploidy revealed by DNA
microarrayy expression profiling. Nat Genet 25,333-337
78.. Huibregtse, J.M., Good, P.D., Marczynski, G.T., Jaehning, J.A., and Engelke, D.R. (1993) Gal4 protein
bindingg is required but not sufficient for derepression and induction of GAL2 expression. J Biol Chem
268,22219-22222 2
79.. Jackson, M. (1977) The world guide to beer, Ballantine Books, New York
80.. Jensen, P.R., Westerhoff, H.V., and Michelsen, O. (1993) The use of /ac-type promoters in control
analysis.. Eur J Biochem 211,181-191
81.. Jespersen, L., Cesar, L.B., Meaden, P.G., and Jakobsen, M. (1999) Multiple alpha-glucoside transporter
geness in Brewer's yeast. Appl Env Microbiol 65,450-456
82.. Jiang, H., Medintz, I., and Michels, C.A. (1997) Two glucose sensing/signaling pathways stimulate
glucose-inducedd inactivation of maltose permease in Saccharomyces. Mol Biol Cell 8,1293-1304
140 0
References s
83.. Jiang, H., Medintz, I., Zhang, B., and Michels, C.A. (2000) Metabolic signals trigger glucose-induced
inactii vation of maltose permease in Saccharomyces. J Bacteriol 182,647-654
84.. Joubert, R., Brignon, P., Lehmann, C, Monribot, C, Gendre, F., and Boucherie, H. (2000) Two-
dimensionall gel analysis of the proteome of lager brewing yeasts. Yeast 16,511-522
85.. Kacser, H., and Burns, J. A. (1973) The control of flux. Symp Soc Exp Biol 27,65-104
86.. Kasahara, M., Shimoda, E., and Maeda, M. (1996) Transmembrane segment 10 is important for substrate
recognitionn on Gal2 and Hxt2 sugar transporters in the yeast Saccharomyces cerevisiae. FEBS Lett 389,
174-178 8
87.. Kasahara, T., and Kasahara, M. (2000) Three aromatic amino acid residues critical for galactose transport
inn yeast Gal2 transporter. J Biol Chem 275,4422^428
88.. Klaassen, P., and Raamsdonk, L. (1998) Contribution of the individual HXT gene products to C02
production.. Folia Microbiol 43,197-200
89.. Klip, A., Tsakiridis, T., Marette, A., and Ortiz, P.A. (1994) Regulation of expression of glucose
transporterss by glucose: a review of studies in vivo and in cell cultures. FASEB J 8,43-53
90.. Ko, C.H., Liang, H., and Gaber, R.F. (1993) Roles of multiple glucose transporters in Saccharomyces
cerevisiae.cerevisiae. Mol Cell Biol 13,638-648
91.. Kopetzki, E., and Entian, K.D. (1985) Glucose repression and hexokinase isoenzymes in yeast. Isolation
andd characterization of a modified hexokinase PII isoenzyme. Eur J J Biochem 146,657-662
92.. Kotter, P., Amore, R., Hollenberg, C.P., and Ciriacy, M. (1990) Isolation and characterization of the
PichiaPichia stipitis xylitol dehydrogenase gene, XYL2, and construction of a xylose-utilizing Saccharomyces
cerevisiaecerevisiae transformant. Curr Genet 18,493-500
93.. Kotter, P., and Ciriacy, M. (1993) Xylose fermentation by Saccharomyces cerevisiae. Appl Microbiol
BiotechnolBiotechnol 38,776-783
94.. Kotyk, A. (1967) Mobility of the free and of the loaded monosaccharide carrier in Saccharomyces
cerevisiae.cerevisiae. Biochim Biophys Acta 135,112-119
95.. Kotyk, A., and Kleinzeller, A. (1967) Affinit y of the yeast membrane carrier for glucose and its role in
thee Pasteur effect. Biochim Biophys Acta 135,106-111
96.. Kowalczuk, M., Mackiewicz, P., Gierlik, A., Dudek, M.R., and Cebrat, S. (1999) Total number of coding
openn reading frames in the yeast genome. Yeast 15,1031-1034
97.. Kraakman, L.S., Winderickx, J., Thevelein, J.M., and De Winde, J.H. (1999) Structure-function analysis
off yeast hexokinase: structural requirements for triggering cAMP signalling and catabolite repression.
BiochemBiochem J 343,159-168
98.. Kreger-van Rij, N.J.W. (1987) in The Yeasts (Rose, A.H., and Harrison, J.S., eds) Vol. 1, 4 vols.,
Academicc Press Inc, London
99.. Kriegel, T.M., Rush, J., Vojtek, A.B., Clifton, D., and Fraenkel, D.G. (1994) In vivo phosphorylation site
off hexokinase 2 in Saccharomyces cerevisiae. Biochemistry 33,148-152
100.. Kruckeberg, A.L. (1996) The hexose transporter family of Saccharomyces cerevisiae. Arch. Microbiol.
166,283-292 2
101.. Kruckeberg, A.L., Walsh, M.C., and Van Dam, K. (1998) How do yeast cells sense glucose? Bioessays
20,972-976 6
102.. Kruckeberg, A.L., Ye, L., Berden, J.A., and van Dam, K. (1999) Functional expression, quantification
andd cellular localization of the Hxt2 hexose transporter of Saccharomyces cerevisiae tagged with the
greenn fluorescent protein. Biochem J 339,299-307
103.. Kuo, S.C., Christensen, M.S., and Cirillo, V.P. (1970) Galactose transport in Saccharomyces cerevisiae.
II .. Characteristics of galactose uptake and exchange in galactokinaseless cells. J Bacteriol 103,671-678
141 1
References s
104.. Kurtzman, C.P., and Phaff, H.J. (1987) in The Yeasts (Rose, A.H., and Harrison, J.S., eds) Vol. 1, 4 vols.,
Academicc Press Inc, London
105.. Lacko, L., and Burger, M. (1962) Interaction of some disaccharides with the carrier system for aldoses in
erythrocytes.. Biochem J 83,622-625
106.. Lagunas, R. (1993) Sugar transport in Saccharomyces cerevisiae. FEMS Microbiol Rev Rev 104,229-242
107.. Lang, J.M., and Cirillo, V.P. (1987) Glucose transport in a kinaseless Saccharomyces cerevisiae muatant.
JJ Bacterial 169,2932-2937
108.. Lashkari, D.A., DeRisi, J.L., McCusker, J.H., Namath, A.F., Gentile, C, Hwang, S.Y., Brown, P.O., and
Davis,, R.W. (1997) Yeast microarrays for genome wide parallel genetic and gene expression analysis.
ProcProc Natl Acad Sci USA 94,13057-13062
109.. Legrain, P., and Selig, L. (2000) Genome-wide protein interaction maps using two-hybrid systems. FEBS
LettLett 480,32-36
110.. Lewis, D.A., and Bisson, L.F. (1991) The HXT1 gene product of Saccharomyces cerevisiae is a new
memberr of the family of hexose transporters. Mol Cell Biol 11,3804-3813
111.. Liang, H., and Gaber, R.F. (1996) A novel signal transduction pathway in Saccharomyces cerevisiae
definedd by Snf3-regulated expression OÏHXT6. Mol Biol Cell 7, 1953-1966
112.. Lillie , S.H., and Pringle, J.R. (1980) Reserve carbohydrate metabolism in Saccharomyces cerevisiae:
responsess to nutrient limitation. J Bacteriol 143, 1384-1394
113.. Lobo, Z., and Maitra, P.K. (1977) Physiological role of glucose-phosphorylating enzymes in
SaccharomycesSaccharomyces cerevisiae. Arch Biochem Biophys 182, 639-645
114.. Locher, G., Hahnemann, U., Sonnleitner, B., and Fiechter, A. (1993) Automatic bioprocess control. 4. A
prototypee batch of Saccharomyces cerevisiae. J Biotechnol 29,57-74
115.. Lowry, O.H., Rosebrough, N.J., Farr, A.L., and Randall, R.J. (1951) Protein measurement with the Folin
phenoll reagent. J Biol Chem 193,265-275
116.. Ma, H., Bloom, L.M., Walsh, C.T., and Botstein, D. (1989) The residual enzymatic phosphorylation
activityy of hexokinase II mutants is correlated with glucose repression in Saccharomyces cerevisiae. Mol.
Cell.Cell. Biol. 9,5643-5649
117.. Ma, H., and Botstein, D. (1986) Effects of null mutations in the hexokinase genes of Saccharomyces
cerevisiaecerevisiae on catabolite repression. Mol Cell Biol 6,4046-4052
118.. Mager, W.H., and Ferreira, P.M. (1993) Stress response of yeast. Biochem J 290,1-13
119.. Maniatis, T., Fritsch, E.F., and Sambrook, J. (1982) Molecular Cloning: A Laboratory Manual, First Ed.,
Coldd Spring Harbor Laboratory, Cold Spring Harbor, NY
120.. Marshall-Carlson, L., Neigeborn, L., Coons, D., Bisson, L., and Carlson, M. (1991) Dominant and
recessivee suppressors mat restore glucose transport in a yeast snf3 mutant. Genetics 128,505-512
121.. MathWorks (1997) Matlab 5.2 Natrick MA
122.. Mauricio, J.C., and Salmon, J.M. (1992) Apparent loss of sugar transport activity in Saccharomyces
cerevisiaecerevisiae may mainly account for maximum ethanol production during alcoholic fermentation.
BiotechnolBiotechnol Lett 14,577-582
123.. Mayes, E.L., Hoggett, J.G., and Kellett, G.L. (1983) The binding of glucose to native and proteolytically
modifiedd yeast hexokinase PI. Eur J J Biochem 133,127-134
124.. McClellan, C.J., and Bisson, L.F. (1988) Glucose uptake in Saccharomyces cerevisiae grown under
anaerobicc conditions: effect of null mutations in the hexokinase and glucokinase structural genes. J
BacteriolBacteriol 170,5396-5400
125.. Meijer, M. (1998) The role of the external glucose concentration in glucose repression in Saccharomyces
cerevisiae,cerevisiae, PhD-thesis, University of Utrecht, Utrecht, The Netherlands
142 2
References s
126.. Meijer, M.M.C., Boonstra, J., Verkleij, A.J., and Verrips, C.T. (1996) Kinetic analysis of hexose uptake
inn Saccharomyces cerevisiae cultivated in continuous culture. Biochim Biophys Acta 1277,209-216
127.. Michel, R.H., McGovern, P.E., and Badier, V.R. (1993) The first wine & beer. Chemical detection of
ancientt fermented beverages. Anal Chem 65,408A-413A
128.. Michels, C.A., Hahnenberger, K.M., and Sylvestre, Y. (1983) Pleiotropic mutations regulating resistance
too glucose repression in Saccharomyces carlsbergensis are allelic to the structural gene for hexokinase B.
JBacteriolJBacteriol 153,574-578
129.. Mitchell, A.P. (1994) Control of meiotic gene expression in Saccharomyces cerevisiae. Microbiol Rev 58,
56-70 0
130.. Moskvina, E., Schuller, C, Maurer, C.T., Mager, W.H., and Ruis, H. (1998) A search in the genome of
SaccharomycesSaccharomyces cerevisiae for genes regulated via stress response elements. Yeast 14,1041-1050
131.. Naumov, G.I., Naumova, E.S., Lantto, R.A., Louis, E.J., and Korhola, M. (1992) Genetic homology
betweenn Saccharomyces cerevisiae and its sibling species S. paradoxus and 5. bayanus: electrophoretic
karyotypes.. Yeast 8, 599-612
132.. Neigeborn, L., Schwartzberg, P., Reid, R., and Carlson, M. (1986) Null mutations in the SNF3 gene of
SaccharomycesSaccharomyces cerevisiae cause a different phenotype than do previously isolated missense mutations.
MolMol Cell Biol 6,3569-3574
133.. Nelissen, B., De Wachter, R., and Goffeau, A. (1997) Classification of all putative permeases and other
membranee plurispanners of the major facilitator superfamily encoded by the complete genome of
SaccharomycesSaccharomyces cerevisiae. FEMS Microbiol Rev 21,113-134
134.. Nishizawa, K., Shimoda, E., and Kasahara, M. (1995) Substrate recognition domain of the Gal2 galactose
transporterr in yeast Saccharomyces cerevisiae as revealed by chimeric galactose-glucose transporters. J
BiolBiol Chem 270,2423-2426
135.. Noorman, H.J., Baksteen, J., Heijnen, J.J., and Luyben, K.C.A.M. (1991) The bioreactor overflow device:
ann undesired selective separator in continuous cultures? J Gen Microbiol 137,2171-2177
136.. Nourani, A., Wesolowski-Louvel, M., Delaveau, T., Jacq, C, and Delahodde, A. (1997) Multiple-drug-
resistancee phenomenon in the yeast Saccharomyces cerevisiae: involvement of two hexose transporters.
MolMol Cell Biol 17,5453-5460
137.. Oda, Y., and Tonomura, K. (1996) Detection of maltose fermentation genes in the baking yeast strains of
SaccharomycesSaccharomyces cerevisiae. Lett Appl Microbiol 23,266-268
138.. Oehlen, L.J.W.M., Scholte, M.E., De Koning, W., and Van Dam, K. (1994) Decrease in glycolytic flux in
SaccharomycesSaccharomyces cerevisiae cdc35-l cells at restrictive temperature correlates with a decrease in glucose
transport.. Microbiology 140,1891-1898
139.. Oliver, S.G. (1991) in Saccharomyces (Tuite, M.F., and Oliver, S.G., eds) Vol. 4, Plenum Press, New
York k
140.. Oshima, Y. (1982) (Strathern, J.N., Jones, E.W., and Broach, J.R., eds), pp. 159-180, Cold Spring Harbor
Laboratory,, New York
141.. Oshiro, G., and Winzeler, E.A. (2000) Aneuploidy-it's more common than you think. Nat Biotechnol 18,
715-716 6
142.. Ostergaard, S., Olsson, L., and Nielsen, J. (2000) Metabolic engineering of Saccharomyces cerevisiae.
MicrobiolMicrobiol Mol Biol Rev 64,34-50
143.. Özcan, S., Dover, J., and Johnston, M. (1998) Glucose sensing and signaling by two glucose receptors in
thee yeast Saccharomyces cerevisiae. EMBO J17,2566-2573
144.. Özcan, S., Dover, J., Rosenwald, A.G., Wolf, S., and Johnston, M. (1996) Two glucose transporters in
SaccharomycesSaccharomyces cerevisiae are glucose sensors that generate a signal for induction of gene expression.
ProcProc Nat Acad Sci USA 93, 12428-12432
143 3
References s
145.. Özcan, S., Freidel, K., Leuker, A., and Ciriacy, M. (1993) Glucose uptake and catabolite repression in
dominantt HTR1 mutants of Saccharomyces cerevisiae. J Bacterial 175,5520-5528
146.. Özcan, S., and Johnston, M. (1995) Three different regulatory mechanisms enable yeast hexose
transporterr (HXT) genes to be induced by different levels of glucose. Mol Cell Biol 15,1564-1572
147.. Özcan, S., and Johnston, M. (1996) Two different repressors collaborate to restrict expression of the yeast
glucosee transporter genes HXT2 and HXT4 to low levels of glucose. Mol Cell Biol 16, 5536-5545
148.. Özcan, S., and Johnston, M. (1999) Function and regulation of yeast hexose transporters. Microbiol Mol
BiolBiol Rev 63, 554-569
149.. Özcan, S., Schulte, F., Freidel, K., Weber, A., and Ciriacy, M. (1994) Glucose uptake and metabolism in
grrl/catSgrrl/catS mutants of Saccharomyce cerevisiae. Eur J Biochem 224, 605-611
150.. Pandey, A., and Mann, M. (2000) Proteomics to study genes and genomes. Nature 405,83746
151.. Panek, A. (1963) Function of trehalose in baker's yeast {Saccharomyces cerevisiae). Arch Biochem
BiophysBiophys \WtA22425
152.. Pao, S.S., Paulsen, I.T., and Saier, M.H., Jr. (1998) Major facilitator superfamily. Microbiol Mol Biol Rev
62,1-34 4
153.. Paulsen, I.T., Sliwinski, M.K., Nelissen, B., Goffeau, A., and Saier, M.H., Jr. (1998) Unified inventory of
establishedd and putative transporters encoded within the complete genome of Saccharomyces cerevisiae.
FEBSLettFEBSLett 430, 116-125
154.. Pedler, S., Wallace, P.G., Wallace, J.C., and Berry, M.N. (1997) The fate of glucose in strains S288C and
S173-6BB of the yeast Saccharomyces cerevisiae. Yeast 13,119-125
155.. Petit, T. (1998) Caractérisation génétique et physiologique des hexokinases des levures
SchizosaccharomycesSchizosaccharomyces pombe et Yarrowia lipolytica et analyse physiologique de leur expression chez la
levurelevure Saccharomyces cerevisiae, PhD-thesis, Institut National des Sciences Appliquées, Toulouse,
France e
156.. Petit, T., Blézqaez, M.A., and Gancedo, C. (1996) Schizosaccharomyces pombe possesses an unusual and
aa conventional hexokinase: biochemical and molecular characterization of both hexokinases. FEBS Lett
378,185-189 9
157.. Petit, T., Diderich, J.A., Kruckeberg, A.L., Gancedo, C, and Van Dam, K. (2000) Hexokinase regulates
kineticss of glucose transport and expression of genes encoding hexose transporters in Saccharomyces
cerevisiae.cerevisiae. J Bacteriol 182,6815-6818
158.. Petit, T„ and Gancedo, C. (1999) Molecular cloning and characterization of the gene HXK1 encoding the
hexokinasee from Yarrowia lipolytica. Yeast 15,1573-1584
159.. Petit, T., Herrero, P., and Gancedo, C. (1998) A mutation Ser213/Asn in the hexokinase 1 from
SchizosaccharomycesSchizosaccharomyces pombe increases its affinity for glucose. Biochem Biophys Res Commun 251, 714-
719 9
160.. Petrik, M., Kappeli, O., and Fiechter, A. (1983) An expanded concept for the glucose effect in the yeast
SaccharomycesSaccharomyces uvarum: Involvement of short- and long-term regulation. J Gen Microbiol 129,43-49
161.. Pirt, S.J. (1975), pp. 2941, J. Wiley and Sons, Inc. New York
162.. Postma, E., Scheffers, W.A., and Van Dijken, J.P. (1989) Kinetics of growth and glucose transport in
glucose-limitedd chemostat cultures of Saccharomyces cerevisiae CBS 8066. Yeast 5,159-165
163.. Postma, E., Verduyn, C, Scheffers, W.A., and Van Dijken, J.P. (1989) Enzymic analysis of the crabtree
effectt in glucose-limited chemostat cultures of Saccharomyces cerevisiae. Appl Environ Microbiol 55,
468477 7
164.. Postma, P.W., Lengeler, J.W., and Jacobson, G.R. (1993) Phosphoenolpyruvatexarbohydrate
phosphotransferasee systems of bacteria. Microbiol Rev 57,543-594
144 4
References s
165.. Prior, C, Mamessier, P., Fukuhara, H., Chen, X.J., and Wesolowski-Louvel, M. (1993) The hexokinase
genee is required for transcriptional regulation of the glucose transporter gene RAG1 in Ktuyveromyces
lactis.lactis. Mol Cell Biol 13,3882-3889
166.. Pronk, J.T., Steensma, H.Y., and Van Dijken, J.P. (1996) Pyruvate metabolism in Saccharomyces
cerevisiae.cerevisiae. Yeast 12,1607-1633
167.. Raamsdonk, L. (2000) Physiological responses of carbon fluxes to deletion of specific genes in
SaccharomycesSaccharomyces cerevisiae, PhD-Thesis, University of Amsterdam, Amsterdam, The Netherlands
168.. Raamsdonk, L.M., Boorsma, A., Diderich, J. A , Berden, J.A., and Van Dam, K. (2000) Deletion of the
HXK2HXK2 gene reveals the importance of biotin for oxidative growth of Saccharomyces cerevisiae on
glucose,, (submitted)
169.. Raamsdonk, L.M., Teusink, B., Broadhurst, D., Zhang, N., Hayes, A., Walsh, M.C., Berden, J.A.,
Brindle,, K.M., Keil, D.B., Rowland, J J., Westerhoff, H.V., Van Dam, K., and Oliver, S.G. (2000)
Functionall genomics via the metabolome: a strategy for characterising mutations with a silent phenotype.
NatureNature Biotech in press
170.. Randez-Gil, R, Herrero, P., Sanz, P., Prieto, J.A., and Moreno, F. (1998) Hexokinase PII has a double
cytosolic-nuclearr localisation in Saccharomyces cerevisiae. FEBS Lett 425,475-478
171.. Randez-Gil, F., Sanz, P., Entian, K.D., and Prieto, J.A. (1998) Carbon source-dependent phosphorylation
off hexokinase PII and its role in the glucose-signaling response in yeast. Mol Cell Biol 18,2940-2948
172.. Randez-Gil, F., Sanz, P., and Prieto, J.A. (1999) Engineering baker's yeast: room for improvement.
TrendsTrends Biotechnol. 17,237-244
173.. Reifenberger, E., Boles, E„ and Ciriacy, M. (1997) Kinetic characterization of individual hexose
transporterss of Saccharomyces cerevisiae and dieir relation to the triggering mechanisms of glucose
repression.. EurJBiochem 245,324-333
174.. Reifenberger, E., Freidel, K., and Ciriacy, M. (1995) Identification of novel HXT genes in Saccharomyces
cerevisiaecerevisiae reveals the impact of individual hexose transporters on the glycolytic flux. Mol Microbiol 16,
157-167 7
175.. Rep, M., Krantz, M., Thevelein, J.M., and Hohmann, S. (2000) The transcriptional response of
SaccharomycesSaccharomyces cerevisiae to osmotic shock. Hotlp and Msn2p/Msn4p are required for the induction of
subsetss of high osmolality glycerol pathway-dependent genes. J Biol Chem 275,8290-300
176.. Richard, P., Diderich, J.A., Bakker, B.M., Teusink, B., Van Dam, K., and Westerhoff, H.V. (1994) Yeast
cellss with a specific cellular make-up and an environment that removes acetaldehyde are prone to
sustainedd glycolytic oscillations. FEBS Lett 341,223-226
177.. Richard, P., Teusink, B., Hemker, M.B., Van Dam, K., and Westerhoff, H.V. (1996) Sustained
oscillationss in free-energy state and hexose phosphates in yeast. Yeast 12,731-740
178.. Rieger, M., Kappeli, O., and Fiechter, A. (1983) The role of limited respiration in the incomplete
oxidationn of glucose by Saccharomyces cerevisiae. J Gen Microbiol 129,653-661
179.. Rodrigues de Sousa, H., Madeira-Lopes, A., and Spencer-Martins, I. (1995) The significance of active
fructosee transport and maximum temperature for growth in the taxonomy of Saccharomyces sensu stricto.
SystSyst Appl Microbiol 18,44-51
180.. Rohwer, J.M. (1997) Interaction of functional units in metabolism., PhD-thesis, University of Amsterdam,
Amsterdam,, The Netherlands
181.. Rose, M. (1995) Molecular and biochemical characterization of the hexokinase from the starch-utilizing
yeastt Schwanniomyces occidentalis. Curr Genet 27,330-338
182.. Rose, M., Albig, W., and Entian, K.D. (1991) Glucose repression in Saccharomyces cerevisiae is directly
associatedd with hexose phosphorylation by hexokinases PI and PII. Eur J Biochem 199,511-518
145 5
References s
183.. Rosenzweig, R.F. (1992) Regulation of fitness in yeast overexpressing glycolytic enzymes: responses to
heatt shock and nitrogen starvation. Genet Res 59,167-177
184.. Rubin, G.M., Yandell, M.D., Wortman, J.R., Gabor Miklós, G.L., Nelson, CR., Hariharan, I.K., Fortini,
M.E.,, Li, P.W., Apweiler, R., Fleischmann, W., Cherry, J.M., Henikoff, S., Skupski, M.P., Misra, S.,
Ashburner,, M., Birney, E., Boguski, M.S., Brody, T., Brokstein, P., Celniker, S.E., Chervitz, S.A.,
Coates,, D., Cravchik, A., Gabrielian, A., Galle, R.F., Gelbart, W.M., George, R.A., Goldstein, L.S.,
Gong,, F., Guan, P., Harris, N.L., Hay, B.A., Hoskins, R.A., Li , J., Li, Z., Hynes, R.O., Jones, S.J., Kuehl,
P.M.,, Lemaitre, B., Littleton, J.T., Morrison, D.K., Mungall, C, O'Farrell, P.H., Pickeral, O.K., Shue, C,
Vosshall,, L.B., Zhang, J., Zhao, Q., Zheng, X.H., Zhong, F., Zhong, W., Gibbs, R., Venter, J.C., Adams,
M.D.,, and Lewis, S. (2000) Comparative genomics of the eukaryotes. Science 287, 2204-2215
185.. Ruyter, G.J.G., Postma, P.W., and Van Dam, K. (1991) Control of glucose metabolism by enzyme IIGlc
off the phosphoenolpyruvate-dependent phosphotransferase system in Escherichia coli. J Bacteriol 173,
6184-6191 1
186.. Salmon, J.M., and Mauricio, J.C. (1994) Relationship between sugar uptake kinetics and total sugar
consumptionn in different industrial Saccharomyces cerevisiae strains during alcoholic fermentation.
BiotechnolBiotechnol Lett 16, 89-94
187.. Sambrook, J., Fritsch, E.F., and Maniatis, T. (1989) Molecular Cloning: A Laboratory Manual, Second
Ed.. 3 vols., Cold Spring Harbor Press, Plainview NY
188.. Schaaff, I., Heinisch, J., and Zimmermann, F.K. (1989) Overproduction of glycolytic enzymes in yeast.
YeastYeast 5,285-290
189.. Schemmel, W. (1968) Das Reinheits gebot fur Herstellung und Vertrieb von Bier in Bayern, PhD Thesis,
JuliusJulius Maximilians Universiteit, Würzburg, Germany
190.. Schierbeek, A. (1963) Antoni van Leeuwenhoek en zijn voornaamste ontdekkingen, Kruseman, Den Haag
191.. Schmitt, M.E., Brown, T.A., and Trumpower, B.L. (1990) A rapid and simple method for preparation of
RNAA from Saccharomyces cerevisiae. Nucleic Acids Res 18,3091-3092
192.. Schulze, U. (1995) Anaerobic physiology of Saccharomyces cerevisiae, PhD-thesis, Technical University
ofof Denmark, Lyngby, Denmark
193.. Schütz, M., and Gafner, J. (1995) Lower fructose uptake capacity of genetically characterized strains of
SaccharomycesSaccharomyces bayanus compared to strains of Saccharomyces cerevisiae: a likely cause of reduced
alcoholicc fermentation activity. Am J Enol Vitic 46,175-180
194.. Seber, G.A.F., and Wild, C.J. (1989) Nonlinear Regression, J. Wiley & Sons, New York
195.. Sherman, F. (1991) Getting started with yeast. Meth Enzymol 194,3-21
196.. Sierkstra, L.N., Verbakei, J.M., and Verrips, C.J. (1992) Analysis of transcription and translation of
glycolyticc enzymes in glucose-limited continuous cultures of Saccharomyces cerevisiae. J Gen Microbiol
138,2559-2566 6
197.. Sikorski, R.S., and Hieter, P. (1989) A system of shuttle vectors and yeast host strains designed for
efficientt manipulation of DNA in Saccharomyces cerevisiae. Genetics 122,19-27
198.. Smits, H.P. (1996) Mechanism and regulation of glucose transport in Saccharomyces cerevisiae, PhD-
thesis,, Universiteit van Amsterdam, Amsterdam, The Netherlands
199.. Smits, H.P., Smits, G.J., Postma, P.W., Walsh, M.C., and Van Dam, K. (1996) High-affinity glucose
uptakee in Saccharomyces cerevisiae is not dependent on the presence of glucose phosphorylating
enzymes.. Yeast 12,439-447
200.. Tadi, D., Hasan, R.N., Bussereau, F., Boy-Marcotte, E., and Jacquet, M. (1999) Selection of genes
repressedd by cAMP that are induced by nutritional limitation in Saccharomyces cerevisiae. Yeast 15,
1733-1745 5
146 6
References s
201.. Ter Kuile, B.H., and Muller, M. (1995) Maltose utilization by extracellular hydrolysis followed by
glucosee transport in Trichomonas vaginalis. Parasitology 110,37-44
202.. ter Schure, E.G., van Riel, N.A., and Verrips, C.T. (2000) The role of ammonia metabolism in nitrogen
catabolitee repression in Saccharomyces cerevisiae. FEMS Microbiol Rev Rev 24,67-83
203.. Teusink, B. (1999) Exposing a complex metabolic system: glycolysis in Saccharomyces cerevisiae, PhD-
thesis,, Universiteit van Amsterdam, Amsterdam, The Netherlands
204.. Teusink, B., Diderich, J.A., Westerhoff, H.V., Van Dam, K., and Walsh, M.C. (1998) Intracellular
glucosee concentration in derepressed yeast cells consuming glucose is high enough to reduce the glucose
transportt rate by 50%. J Bacteriol 180,556-562
205.. Teusink, B., Larsson, C, Diderich, J., Richard, P., Van Dam, K., Gustafsson, L., and Westerhoff, H.V.
(1996)) Synchronized heat flux oscillations in yeast cell populations. J Biol Chem 271,24442-24448
206.. Teusink, B., Walsh, M.C, Van Dam, K., Gustafsson, L., and Westerhoff, H.V. (1996) in 7th
InternationalInternational Meeting on Biothermokinetics (Westerhoff, H.V., Snoep, J.L., Wijker, J.E., Sluse, F.E., and
Kholodenko,, B.N., eds), pp. 475, BioThermoKinetics Press, Louvain-la-Neuve
207.. Teusink, B., Walsh, M.C., Van Dam, K., and Westerhoff, H.V. (1998) The danger of metabolic pathways
withh turbo design. Trends Biochem Sci 23,162-169
208.. Theobald, U., Mailinger, W., Reuss, M., and Rizzi, M. (1993) In vivo analysis of glucose-induced fast
changess in yeast adenine nucleotide pool applying a rapid sampling technique. Anal Biochem 214,31-37
209.. Theodoris, G., Fong, N.M., Coons, D.M., and Bisson, L.F. (1994) High-copy suppression of glucose
transportt defects by HXT4 and regulatory elements in the promoters of the HXT genes in Saccharomyces
cerevisiae.cerevisiae. Genetics 137,957-966
210.. Thevelein, J.M. (1991) Fermentable sugars and intracellular acidification as specific activators of the
RAS-adenylatee cyclase signalling pathway in yeast: the relationship to nutrient-induced cell cycle
control.. Mol Microbiol 5,1301-1307
211.. Thevelein, J.M. (1992) The RAS-adenylate cyclase pathway and cell cycle control in Saccharomyces
cerevisiae.cerevisiae. Antonie van Leeuwenhoek 62,109-130
212.. Thevelein, J.M., and Hohmann, S. (1995) Trehalose synthase: guard to the gate of glycolysis in yeast?
TrendsTrends Biochem Sci 20,3-10
213.. Tokai, M., Kawasaki, H., Kikuchi, Y., and Ouchi, K. (2000) Cloning and characterization of the CSF1
genee of Saccharomyces cerevisiae, which is required for nutrient uptake at low temperature. J Bacteriol
182,2865-2868 8
214.. Tornai-Lehoczki, J., Peter, G., Dlauchy, D., and Dedk, T. (1996) Some remarks on a "taxonomie key for
thee genus Saccharomyces" (Vaughan Martini and Martini 1993). Antonie van Leeuwenhoek 69,229-233
215.. Travisano, M„ and Lenski, R.E. (1996) Long-term experimental evolution in Escherichia coli. IV.
Targetss of selection and the specificity of adaptation. Genetics 143,15-26
216.. Trumbly, R.J. (1992) Glucose repression in the yeast Saccharomyces cerevisiae. Mol Microbiol 6,15-21
217.. Tschopp, J.F., Emr, S.D., Field, C, and Schekman, R. (1986) GAL2 codes for a membrane-bound subunit
off the galactose permease in Saccharomyces cerevisiae. J Bacteriol 166,313-318
218.. Tuite, M.F. (1991) in Saccharomyces (Tuite, M.F., and Oliver, S.G., eds) Vol. 4, Plenum Press, New
York k
219.. Tweeddale, H., Notley-McRobb, L., and Ferenci, T. (1998) Effect of slow growth on metabolism of
EscherichiaEscherichia coli, as revealed by global metabolite pool ("Metabolome") analysis. J Bacteriol 180, 5109-
5116 6
220.. Vagnoli, P., Coons, D.M., and Bisson, L.F. (1998) The C-terminal domain of Snf3p mediates glucose-
responsivee signal transduction in Saccharomyces cerevisiae. FEMS Microbiol Lett 160,31-36
221.. Van Dam, K. (1986) Biochemistry is a quantitative science. Trends Biochem Sci 11,13-14
147 7
References s
222.. Van der Bend, R.L. (1985) Studies on the functional coupling of bacteriorhodopsin and mitochondrial
ATPATP synthase, PhD-thesis, Universiteit van Amsterdam, Amsterdam, The Netherlands
223.. van Dijken, J.P., Bauer, J., Brambilla, L., Duboc, P., Francois, J.M., Gancedo, C, Giuseppin, ML. ,
Heijnen,, J.J., Hoare, M., Lange, H.C., Madden, E.A., Niederberger, P., Nielsen, J., Parrou, J.L., Petit, T.,
Porro,, D., Reuss, M., van Riel, N., Rizzi, M., Steensma, H.Y., Verrips, C.T., Vindel0v, J., and Pronk, J.T.
(2000)) An interlaboratory comparison of physiological and genetic properties of four Saccharomyces
cerevisiaecerevisiae strains. Enzyme Microb Technol 26,706-714
224.. van Hoek, P., Flik weert, M.T., van der Aart, Q.J., Steensma, H.Y., van Dijken, J.P., and Pronk, J.T.
(1998)) Effects of pyruvate decarboxylase overproduction on flux distribution at the pyruvate branch point
inn Saccharomyces cerevisiae. Appl Env Microbiol 64,2133-2140
225.. van Hoek, P., van Dijken, J.P., and Pronk, J.T. (2000) Regulation of fermentative capacity and levels of
glycolyticc enzymes in chemostat cultures of Saccharomyces cerevisiae. Enzyme Microb Technol 26,724-
736 6
226.. Van Urk, H., Mak, P.R., Scheffers, W.A., and van Dijken, J.P. (1988) Metabolic responses of
SaccharomycesSaccharomyces cerevisiae CBS 8066 and Candida utilis CBS 621 upon transition from glucose limitation
too glucose excess. Yeast 4,283-291
227.. Vanoni, M., Sollitti, P., Goldenthal, M., and Marmur, J. (1989) Structure and regulation of the multigene
familyy controlling maltose fermentation in budding yeast. Prog Nucleic Acid Res Mol Biol 37,281-322
228.. Vaughan-Martini, A., and Martini, A. (1989) A proposal for the correct nomenclature of the
domesticateddomesticated species of the genus Saccharomyces. Biotechnology Applications in Beverage Production.
(Cantarelli,, C, and Lanzarini, G., Eds.), Elsevier Applied Science Publ., London
229.. Vaughan-Martini, A., Martini, A., and Cardinali, G. (1993) Electrophoretic karyotyping as a taxonomie
tooll in the genus Saccharomyces. Antonie Van Leeuwenhoek 63,145-156
230.. Verduyn, C. (1991) Physiology of yeasts in relation to biomass yields. Antonie Van Leeuwenhoek 60,
325-353 3
231.. Verduyn, C, Postma, E., Scheffers, W.A., and Van Dijken, J.P. (1990) Physiology of Saccharomyces
cerevisiaecerevisiae in anaerobic glucose-limited chemostat cultures. J Gen Microbiol 136,395-403
232.. Verduyn, C, Postma, E., Scheffers, W.A., and Van Dijken, J.P. (1992) Effect of benzoic acid on
metabolicc fluxes in yeasts: a continuous-culture study on the regulation of respiration and alcoholic
fermentation.. Yeast 8,501-517
233.. Verduyn, C, van Dijken, J.P., and Scheffers, W.A. (1984) Colorimetric alcohol assays with alcohol
oxidase.. J Microbiol Meth 2, 15-25
234.. Vojtek, A.B., and Fraenkel, D.G. (1990) Phosphorylation of yeast hexokinases. Eur J J Biochem 190, 371-
375 5
235.. Wach, A., Brachat, A., Pohlmann, R., and Philippsen, P. (1994) New heterologous modules for classical
orr PCR-based gene disruptions in Saccharomyces cerevisiae. Yeast 10,1793-1808
236.. Walfridsson, M., Bao, X., Anderlund, M., Lilius, G., Bülow, L., and Hahn-Hagerdal, B. (1996) Ethanolic
fermentationn of xylose with Saccharomyces cerevisiae harboring the Thermus thermophilus xylA gene,
whichh expresses an active xylose (glucose) isomerase. Appl Env Microbiol 62,4648-4651
237.. Walmsley, A.R. (1988) The dynamics of the glucose transporter. Trends Biochem Sci 13,226-231
238.. Walsh, M.C., Scholte, M., Valkier, J., Smits, H.P., and Van Dam, K. (1996) Glucose sensing and
signallingg properties in Saccharomyces cerevisiae require the presence of at least two members of the
glucosee transporter family. J Bacteriol 178,2593-2597
239.. Walsh, M.C., Smits, H.P., Scholte, M., and Van Dam, K. (1994) Affinit y of glucose transport in
SaccharomycesSaccharomyces cerevisiae is modulated during growth on glucose. J Bacteriol 176,953-958
148 8
References s
240.. Walsh, M.C., Smits, H.P., and Van Dam, K. (1994) Respiratory inhibitors affect incorporation of glucose
intoo Saccharomyces cerevisiae, but not the activity of glucose transport. Yeast 10,1553-1558
241.. Walsh, R.B., Clifton, D., Horak, J., and Fraenkel, D.G. (1991) Saccharomyces cerevisiae null mutants in
glucosee phosphorylation: metabolism and invertase expression. Genetics 128,521-527
242.. Wanders, RJ. (1999) Peroxisomal disorders: clinical, biochemical, and molecular aspects. Neurochem
ResRes 2A, 565-580
243.. Weikert, C, Sauer, U., and Bailey, J.E. (1997) Use of a glycerol-limited, long-term chemostat for
isolationn of Escherichia coli mutants witfi improved physiological properties. Microbiology 143, 1567-
1574 4
244.. Wendell, D.L., and Bisson, L.F. (1993) Physiological characterization of putative high-affinity glucose
transportt protein Hxt2 of Saccharomyces cerevisiae by use of and- synthetic peptide antibodies
[publishedd erratum appeared in J Bacterid 1994 Feb; 176(3):938]. J Bacteriol 175,7689-7696
245.. Wendell, D.L., and Bisson, L.F. (1994) Expression of high-affinity glucose transport protein Hxt2p of
SaccharomycesSaccharomyces cerevisiae is both repressed and induced by glucose and appears to be regulated
posttranslationally.. J Bacteriol 176,3730-3737
246.. Wenzel, T.J., Teunissen, A.W., and Steensma, H.Y. (1995) PDA1 mRNA: a standard for quantitation of
mRNAA in Saccharomyces cerevisiae superior to ACT1 mRNA. Nucleic Acids Res 23,883-884
247.. Westerhoff, H.V., Kholodenko, B.N., Cascante, M., and Van Dam, K. (1995) Elusive control. J Bioenerg
BiomembrBiomembr 27,491-7
248.. Weusthuis, R.A., Luttik, M.A., Scheffers, W.A., van Dijken, J.P., and Pronk, J.T. (1994) Is the Kluyver
effectt in yeasts caused by product inhibition? Microbiology 140,1723-1729
249.. Weusthuis, R.A., Pronk, J.T., Van Den Broek, J.A., and Van Dijken, J.P. (1994) Chemostat cultivation as
aa tool for studies on sugar transport in yeasts. Microbiol Rev 58,616-630
250.. Wiame, J.M., Grenson, M., and Arst, H.N., Jr. (1985) Nitrogen catabolite repression in yeasts and
filamentouss fungi. Adv Microb Physiol 26,1-88
251.. Wieczorke, R., Krampe, S., Weierstall, T„ Freidel, K., Hollenberg, C.P., and Boles, E. (1999) Concurrent
knock-outt of at least 20 transporter genes is required to block uptake of hexoses in Saccharomyces
cerevisiae.cerevisiae. FEBS Lett 464,123-128
252.. Wilson, W.A., Hawley, S.A., and Hardie, D.G. (1996) Glucose repression/derepression in budding yeast:
SNF11 protein kinase is activated by phosphorylation under derepressing conditions, and this correlates
withh a high AMP:ATP ratio. Curr Biol 6,1426-1434
253.. Win, S.S., Impoolsup, A., and Noomhorm, A. (1996) Growth kinetics of Saccharomyces cerevisiae in
batchh and fed-batch cultivation using sugarcane molasses and glucose syrup from cassava starch. J Ind
MicrobiolMicrobiol 16,117-123
254.. Wodicka, L., Dong, H., Mittmann, M., Ho, M.H., and Lockhart, DJ. (1997) Genome-wide expression
monitoringg in Saccharomyces cerevisiae. Nat Biotechnol 15,1359-1367
255.. Ye, L. (1999) Glucose transport in Saccharomyces cerevisiae: Effects on growth and metabolism, PhD-
thesis,, Universiteit van Amsterdam, Amsterdam, The Netherlands
256.. Ye, L., Kruckeberg, A.L., Berden, J.A., and Van Dam, K. (1999) Growth and glucose repression are
controlledd by glucose transport in Saccharomyces cerevisiae cells containing only one glucose
transporter,, ƒ Bacteriol Bacteriol 181,4673-4675
257.. Zimmermann, F.K., and Scheel, I. (1977) Mutants of Saccharomyces cerevisiae resistant to carbon
catabolitee repression. Mol Gen Genet 154,75-82
149 9
References s
150 0
