Physiological characterization of brewer’s yeast in high-gravity beer fermentations with glucose or maltose syrups as adjuncts
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[1] K. Verstrepen,et al. Parameters Affecting Ethyl Ester Production by Saccharomyces cerevisiae during Fermentation , 2007, Applied and Environmental Microbiology.
[2] P. van Dijck,et al. Attachment of MAL32‐encoded maltase on the outside of yeast cells improves maltotriose utilization , 2007, Yeast.
[3] Jessika De Clippeleer,et al. Prolonged flavour stability by production of beer with low residual FAN using active dry yeast , 2007 .
[4] S. Mussatto,et al. High Gravity Brewing by Continuous Process Using Immobilised Yeast: Effect of Wort Original Gravity on Fermentation Performance , 2007 .
[5] G. Stewart,et al. Elucidation of the Role of Nitrogenous Wort Components in Yeast Fermentation , 2007 .
[6] Freddy R. Delvaux,et al. Isolation and Characterization of Brewer's Yeast Variants with Improved Fermentation Performance under High-Gravity Conditions , 2006, Applied and Environmental Microbiology.
[7] Chris Boulton,et al. Brewing: Science and Practice , 2004 .
[8] P. L. Pratt,et al. The Effects of Osmotic Pressure and Ethanol on Yeast Viability and Morphology , 2003 .
[9] J. Londesborough,et al. Maltose Transport by Brewer's Yeasts in Brewer's Wort , 2003 .
[10] A. Alves,et al. Simultaneous quantification of primary, secondary amino acids, and biogenic amines in musts and wines using OPA/3-MPA/FMOC-Cl fluorescent derivatives , 2001 .
[11] David E. Quain,et al. Brewing Yeast and Fermentation , 2001 .
[12] P. Gervais,et al. Coupling effects of osmotic pressure and temperature on the viability of Saccharomyces cerevisiae , 2001, Applied Microbiology and Biotechnology.
[13] G. Stewart,et al. SUGAR UPTAKE AND SUBSEQUENT ESTER AND HIGHER ALCOHOL PRODUCTION BY SACCHAROMYCES CEREVISIAE , 1998 .
[14] J. Nielsen,et al. Glucose control in Saccharomyces cerevisiae: the role of Mig1 in metabolic functions. , 1998, Microbiology.
[15] E. O'Connor-Cox,et al. Trehalose: an osmoprotectant and stress indicator compound in high and very high gravity brewing , 1996 .
[16] W. Müller. High gravity brewing , 1996 .
[17] J Villadsen,et al. Determination of intracellular trehalose and glycogen in Saccharomyces cerevisiae. , 1995, Analytical biochemistry.
[18] S. Shindo,et al. Control of acetate ester formation during alcohol fermentation with immobilized yeast , 1992 .
[19] G. Stewart,et al. Factors that influence the ethanol tolerance of brewer's yeast strains during high gravity wort fermentations , 1988 .
[20] M. Brandriss,et al. Proline utilization in Saccharomyces cerevisiae: sequence, regulation, and mitochondrial localization of the PUT1 gene product , 1987, Molecular and cellular biology.
[21] J. Pierce. HORACE BROWN MEMORIAL LECTURE THE ROLE OF NITROGEN IN BREWING , 1987 .
[22] G. P. Casey,et al. High-gravity brewing: production of high levels of ethanol without excessive concentrations of esters and fusel alcohols , 1985 .
[23] S. H. Lillie,et al. Reserve carbohydrate metabolism in Saccharomyces cerevisiae: responses to nutrient limitation , 1980, Journal of bacteriology.