Changes in the Concentrations of the Polyphenolic Constituents of Sorghum during Malting and Mashing

Sorghum varieties differed widely in their content of polyphenolic compounds. The concentrations of all phenolic compounds increased several-fold during malting and the degree of increase differed with variety. The concentration of polyphenols extracted in wort was dependent, to a great extent, on the temperature of mashing.     

RATE-LIMITING ENZYMES IN THE LIBERATION OF AMINO ACIDS IN MASHING

When 29 malts representing a wide variation in free amino nitrogen of wort were mashed for 3 h at 45°C, the increases in TCA-soluble amino nitrogen varied from 47 to 116 μmoles per gramme of malt. The carboxypeptidase activities of the malts showed only small positive correlations with the increase of amino nitrogen during mashing. Inactivation of the different malt carboxypeptidases by 70 to 90% with diisopropylfluorophosphate decreased the liberation of amino nitrogen by only 5 to 25%. Moreover, addition of purified malt carboxypeptidase I to the mashing suspensions had no effect on the liberation of amino nitrogen. It is therefore evident that the carboxypeptidases do not have a major rate-limiting role in the liberation of amino acids in mashing, although it has earlier been shown that they are essential enzymes in this process. The proteinase activities of the malts, determined using two methods, correlated strongly with the liberation of amino nitrogen in mashing. Addition of crude malt proteinase to the mash increased, and addition of purified barley proteinase inhibitor decreased the measured proteinase activity and the liberation of amino acids roughly to the same extent. These results indicate that the most important rate-limiting enzyme activity in the liberation of amino acids in mashing is the proteinase activity of the malt.     

CHANGES IN ACTIVITY OF SORGHUM LIPASE DURING MALTING AND MASHING

Lipase activity was monitored during malting and mashing of sorghum grains. All three sorghum varieties contained detectable lipase activity in the ungerminated form. Lipase activity changed only slightly during steeping for 24 hours but increased several fold in the course of germination. Between 24% and 60% of the lipase activity of the green malt was retained after kilning at 48°C but no activity was detected in the wort after mashing at 65°C. About 68% of the lipase activity of 72 hours old malt was detected in the plumule, while 29% and 3% were detected in the endosperm and radicle, respectively. Optimum activity was observed at pH 7.0.     

Studies on the mashing conditions of teff (Eragrostis tef) malt as a raw material for lactic acid‐fermented gluten‐free beverage

Formation of extracts and fermentable sugars during mashing can be limited by incomplete starch gelatinisation. The aim of this research was to develop mashing programme for 100% teff malt as a potential raw material for gluten‐free lactic acid‐fermented beverage. Isothermal mashing at temperatures ranging between 60 and 84 °C was conducted, and the highest extract (85%) was observed for the wort samples produced at temperatures higher than 76 °C. Sixty‐minute rest at 71 °C resulted in higher fermentable sugars than other tested conversion rest temperatures. Inclusion of lower mashing‐in temperature in the mashing programme also substantially improved the concentrations of free amino nitrogen (128 mg L^?1) and fermentable sugar (58 g L^?1) in the final wort. Therefore, 30‐min rest at 40 °C followed by 60‐min rest at 71 °C and 10‐min rest at 78 °C was found to be a suitable mashing programme for teff malt.     

EFFECT OF CALCIUM IONS IN SORGHUM BEER MASHING

One of the problems in sorghum beer brewing is that of sugar production. This is because sorghum malts are low in diastatic activity, the grist contains a high proportion of adjunct and in some brewing processes conversion is carried out at pH 4. Since the positive effects of calcium ions on alpha-amylase activity are well described, the use of additional calcium in sorghum mashing was investigated. Mashing at pH 4.5 in the presence of 0.1% calcium acetate (227 ppm Ca) resulted in almost complete conservation of diastatic activity during conversion and higher reducing sugar production compared with tap water (31 ppm Ca). At a mash pH of 4, a calcium ion concentration of approximately 200 ppm gave maximum reducing sugar production and wort yield and increased extract. Under these conditions, some alpha-amylase activity was detected at the end of the conversion, whereas without calcium no alpha-amylase activity was detected. It, therefore, appears that improved conversion took place due to the conservation of alpha-amylase activity by calcium ions. The inclusion of additional calcium ions in sorghum beer mashes also enabled the same amount of sugar production compared with straight tap water but using a substantially lower proportion of malt in the grist.     

甜高梁的加工利用

甜高梁是高效的能源作物，文章对甜高梁品种、甜高梁酿酒、加工饲料、生产酒精及发展前景进行了综述。     

α-GLUCOSIDASE ACTIVITY OF SORGHUM AND BARLEY MALTS

Sorghum malt α-glucosidase activity was highest at pH 3.75 while that of barley malt was highest at pH 4.6. At pH 5.4 employed in mashing sorghum malt α-glucosidase was more active than the corresponding enzyme of barley malt. α-Glucosidase was partly extracted in water but was readily extracted when L-cysteine was included in the extraction buffer, pH 8. Sorghum malt made at 30°C had higher α-glucosidase activities than the corresponding malts made at 20°C and 25°C. Nevertheless, the sorghum malts made at 20°C and 25°C produced worts which contained more glucose than worts of malt made at 30°C. Although barley malts contained more α-glucosidase activity than sorghum malts, the worts of barley had the lowest levels of glucose. The limitation to maltose production in sorghum worts, produced at 65°C, is due to inadequate gelatinization of starch and not to limitation to β-amylase and α-amylase activities. Gelatinization of the starch granules of sorghum malt in the decantation mashing procedure resulted in the production of sorghum worts which contained high levels of maltose, especially when sorghum malt was produced at 30°C. Although the β-amylase and α-amylase levels of barley malt was significantly higher than those of sorghum malted optimally at 30°C, sorghum worts contained higher levels of glucose and equivalent levels of maltose to those of barley malt. It would appear that the individual activities of α-glucosidase, α-amylase and β-amylase of sorghum malts or barley malts do not correlate with the sugar profile of the corresponding worts. In consequence, specifications for enzymes such as α-amylase and β-amylase in malt is best set at a range of values rather than as single values.     

THE EFFECTS OF MASHING TEMPERATURE AND MASH THICKNESS ON WORT CARBOHYDRATE COMPOSITION

Temperature and mash thickness are shown to affect both mash performance and enzyme activity. Alpha amylase was found to be considerably more resistant to heat inactivation than was beta amylase. This difference was reflected by changes in wort fermentability that were manifest at temperatures below those which affected levels of extract. Increasing the mashing temperature from 65°C to 80°C had only a slight effect on extract but reduced wort fermentability from over 70% to less than 30%. At 85°C and over, when temperature had a significant effect on alpha amylase, as well as on beta-amylase, extract was lost and starch was present in the wort. Diluting the mash with liquor had a similar effect to that of increasing temperature on both the amylolytic enzymes and on the mash performance. Thin mashes contained more starch and fewer fermentable sugars than did thick mashes at the same temperature. These changes can be related to the stability of the amylolytic enzymes.     

Isolation and characterization of polygalacturonase and invertase from a yeast Endomycopsis fibuligera (3812) bioconversion of date wastes

Properties of polygalacturonase [E.C. 3.2.1.15] (E₁) and invertase (E.C. 3.2.1.26] (E₂) isolated and purified in powdered form from Endomycopsis fibuligera grown on date wastes were measured.
The molecular weights were estimated to be about 32000 and 69500, and they were highly specific for hydrolysing (1–4) and (1–2) glycosidic links respectively. the K_m value of E₁ was 7.1 × 10^-2M for soluble-pectic acid and that for E₂ was 6.7 × 10^-2M for sucrose at pH4.5, and optimal pHs were 3.5 for E₁ and 4.0 for E₂. the purified enzymes are stable on storage for more than one year at - 20°C.     

MASHING EQUIPMENT SIMULATING DEEP-BED PRODUCTION MASHES

A glass mashing unit, using only 1 kg of grist, has been designed to simulate the effects of wort run-off from a deep infusion tun. The apparatus incorporates automatic sparging control and measurement of mash temperature without disturbing the filtration characteristics of the mash bed. The ease of wort run-off is assessed by monitoring the pressure differential across the mash bed while wort is allowed to separate at a pre-determined flow rate. The depth of mash bed (1·8 metres) is equivalent to that in a commercial infusion tun and, although only a small quantity of grist is required, the apparatus permits characterisation of the potential run-off behaviour of different malts under production conditions.     

糖化温度对7°P麦汁阿拉伯木聚糖、β-葡聚糖的影响研究

小麦是良好的啤酒酿造原料,在我国种植面积广泛,价格较低,品种多,富含蛋白质、淀粉。本文设计添加10％小麦芽进行糖化,研究不同糖化温度和糖化时间对7^oP麦汁理化指标的影响。实验结果表明,52℃15mm、63℃110min、72℃20min、78℃过滤糖化工艺中,7^oP麦汁阿拉伯木聚糖含量最多,为1034．33mg／L;52℃15min、63℃100min、72℃20min、78℃过滤糖化工艺中,β-葡聚糖含量最高,为72．96mg／L。当阿拉伯木聚糖产生919．33mg／L、β-葡聚糖产生两为72．96mg／L时,7^oP麦汁的粘度最大,此时,过滤速率为81．52mL／30min。     

THE PROPERTIES,COMPOSITION AND FERMENTABILITIES OF WORTS MADE FROM 100% RAW SORGHUM AND COMMERCIAL ENZYMES

A mashing regime was developed using 100% raw sorghum which enabled commercially acceptable hot water extracts to be obtained in 85 minutes with minimal use of a heat stable α-amylase and proteolytic enzymes. This gave worts of HWE 295 1°/kg, with FAN levels of about 40 mg/l and ammonium ion concentration of about 60 mg/l. Higher, but commercially unacceptable, levels of proteolytic enzymes gave worts with FAN from 84.5 to 95 (mg/l). Addition of an amyloglucosidase as the commercial preparation Amylo300L, was required to convert the HWE to fermentable extract. The addition of Amylo300L, increased the DP1, DP2 and DP3 carbohydrate fractions of the worts from 22% to more than 90% of the total, compared to about 80% for a wort made from malted barley without the use of enzymes. Two different proteolytic enzymes gave different extracts and FAN contents presumably reflecting either differences in susceptibilities of the sorghum to the two enzymes or the presence of different additional enzyme activities in the different preparations. The level of ammonium ions in malted barley worts was 86 mg/l and up to 88 mg/l in worts produced from sorghum and enzymes. Enzyme addition produced increased levels of ammonia. The content of Group A (the most readily assimilated) amino acids was proportionally higher in sorghum worts compared to malted barley wort. Worts made from raw sorghum and enzymes, containing as little as 40 mg/l FAN, were fully attenuated. The yeast consumed about 35 mg/l FAN and 45 mg/l ammonium ions. Under identical fermentation conditions, the same yeast, fermenting a malted barley wort of comparable extract consumed 104 mg/l FAN and 37 mg/l ammonium ions.