β-amylase, Sorghum malting, Bacillus subtilis, Weibull 4-parameter model
Abstract :
[en] Steeping in dilute alkaline (0.2% NaOH) followed by resteeping in biocontrol (starters of Bacillus subtilis S499) has been used during red sorghum malting. The effect of steeping and germination conditions has been described using 2 functions: a Weibull 4-parameter model combined with a General Linear Model with Logarithm Link with significant goodness. Steeping conditions (combined use of NaOH and Bacillus subtilis S499) affects the synthesis capacity of grain: when Bacillus subtilis culture used in the steeping step is diluted, lnα increases, suggesting a loss of treatment efficacy. The germination temperature affects the β-amylase synthesis rate during the induction phase: the germination temperature increase is accompanied by a decrease of the β-amylase synthesis rate. During the repression phase of β-amylase synthesis, the effect of malting conditions was found to taper.
Agu R.C., Palmer G.H. Effect of mashing procedures on some sorghum varieties germinated at different temperatures. Process Biochem. 1997, 32:147-158.
Aisien A.O. Enzymic modification of sorghum endosperm during seedling growth and malting. J. Food Sci. Agric. 1982, 33:754-759.
Aisien A.O., Palmer G.H. The sorghum embryo in relation to the hydrolysis of the endosperm during germination and seedling growth. J. Food Sci. Agric. 1983, 34:113-124.
Awoyinka O.A., Adebawo O.O. Influence of malting time on α and β-amylases secretions in Nigerian Amylolytic maize Cultivars. Afr. J. Agric. Res. 2008, 3(1):7-12.
Beta T., Rooney L.W., Marovatsanga L.T., Taylor J.R.N. Effect of chemical treatment on polyphenols and malt quality in sorghum. J. cereal Sci. 2000, 31:295-302.
Bwanganga T.J.-C., Destain J., Béra F., Thonart P. Use of Bacillus subtilis S499 to control mold growth during malting of red sorghum from D.R.Congo. Récents Progrès en Génie des Procédés 2011, vol. 101. Paris, France.
Bwanganga T.J.-C., Béra F., Thonart P. Optimizing red sorghum malt quality when Bacillus subtilis is used during steeping to control mould growth. J. Inst. Brew. 2012, 10.1002/jib.36.
Dewar J., Orovan E. Effect of alkaline steeping on water uptake and malt quality in sorghum. J. Inst. Brew. 1997, 103:283-285.
Dewar J., Taylor J.R.N., Berjak P. Determination of improved steeping conditions for sorghum malting. J. Cereal Sci. 1997, 26:129-136.
Georgé S., Brat P., Alter P., Amiot M.J. Rapid determination of polyphenols and vitamin C in plant derived products. J. Agric. Food Chem. 2005, 53:1370-1373.
Jones R.L., Jacobsen J.V. Regulation of synthesis and transport of secreted proteins in cereal aleurone. Int. Rev. Cytol. 1991, 126:49-87.
Kaplan F., Guy C.L. RNA interference of Arabidopsis beta-amylase8 prevents maltose accumulation upon cold shock and increases sensitivity of PSII photochemical efficiency to freezing stress. Plant J. 2005, 44:730-743.
Kaplan F., Kopka J., Haskell D.W., Zhao W., Schiller K.C., Gatzke N., Sung D.Y., Guy C.L. Exploring the temperature-stress metabolome of Arabidopsis. Plant Physiol. 2004, 136:4159-4168.
Li, C., Lance Reg, Tarr, A., Broughton, S., Harasymow, S., Appels, R., Paris, M., and Mike, J., Not Dated. Can the Thermostable Beta-amylase Gene Improve Barley Malting Quality, Department of Agriculture Western Australia, Baron-Hay Court, South Perth WA6151, State Agricultural Biotechnology Centre, Murdoch University, WA6150.
Nakamura Y. Some properties of starch debranching enzymes and their possible role in amylopectin biosynthesis. Plant Sci. 1996, 121:1-18.
Nout M.J.R., Davies B.J. Malting characteristics of finger millet, sorghum and barley. J. Inst. Brew. 1982, 88:157-163.
Okoli E.V., Okolo B.N., Moneke A.N., Ire F.S. Effect of cultivar and germination time on amylolytic potential, extract yield and wort fermenting properties of malting sorghum. Asian J. Biotechnol. 2010, 2(1):14-26.
Okolo B.N., Moneke A.N., Ezeogu L.I., Ire F.S. Calcium regulation of carbohydrate modification in sorghum. Afr. J. Biotechnol. 2010, 9(25):3861-3873.
Okon E.U., Uwaifo A.O. Evaluation of malting sorghum I-The malting potential of Nigerian varieties of sorghum. Brewers Dig. 1985, 60:24-29.
Perata P., Matsukura P., Vernieri C., Yamaguchi J. Sugar repression of a Gibberellin-dependent signaling pathway in barley embryos. The Plant Cell 1997, 9:2197-2208.
Price M.L., Van Scoyoc S., Butler L.G. A critical evaluation of the vanillin reaction as an assay for tannin in sorghum grain. J. Agric. Food Chem. 1978, 26:1214-1218.
Taylor J.R.N., Robbins D.J. Factors infl{ligature}uencing beta-amylase activity in sorghum malt. J. Inst. Brew. 1993, 99:413-416.
Taylor J.R.N., Schober T.J., Bean S.R. Novel food and non-food uses for sorghum and millets. J. Cereal Sci. 2006, 44:252-271.