Sorghum β‐Amylase Production: Relationship With Grain Cultivar,Steep Regime,Steep Liquor Composition and Kilning Temperature

Steep regime, nature of alkaline liquor, and kilning conditions were studied for their effects on sorghum malt β‐amylase development in four Nigerian sorghum cultivars. Malt β‐amylase activity was markedly (p < .001) influenced by all the four factors as well as their various interactions. Overall, malts from KSV 8 variety were the most β‐amylolytic followed in sequence by those from Local Red (LR), SK 5912, and Local white (LW) respectively. The presence or absence of air rests in steep regimes was a significant (p < .001) determinant of sorghum β‐amylase response to final warm steeping, steep liquor and kilning condition. The nature of the alkaline steep liquor was also a major determinant of the pattern of malt β‐amylase response to the kilning condition. Steeping in Ca(OH)₂ enhanced malt β‐amylase activity at the higher temperature of kilning, while KOH produced the opposite effect. Ca(OH)₂ enhancement of β‐amylase development, at a kilning temperature of 50°C, was variety‐dependent suggesting that different sorghum cultivars may employ different biosynthesis models for β‐amylase synthesis. The regime‐dependence of β‐amylase response to kiln temperature suggests that this was an important modulator of sorghum germination physiology.     

Optimization of Malting Conditions for Two Black Rice Varieties,Black Non‐Waxy Rice and Black Waxy Rice (Oryza sativa L. Indica)

Two black rice varieties, “black non‐waxy” and “black waxy”, were investigated as possible raw materials for the production of malt. The malting conditions were optimised using response surface methodology. The three process parameters were steeping, germination time and temperature. Each parameter was tested at three levels: adjustment degrees of steeping were 38, 41, and 44%, germination times were 6, 7, and 8 days, and the temperatures were 20, 25 and 30°C. At the end of the germination process, all samples were kilned at 50°C for 24 h, and shoot/rootlets were removed before a detailed quality assessment was performed. Data analysis was performed using the Design Expert Statistic Program. The optimal conditions found for both rice varieties were as follows: germination time of 8 days at 30°C and 44% grain moisture. Although the extract yield, and a‐amylase and β‐amylase activities of both rice malts were lower than barley malt, the higher activity of limit‐dextrinase enzyme and apparent attenuation limit (AAL), which was higher than 80%, suggests that rice malt has potential for use in brewing.     

Production and Antioxidative Activity of Mead Made From Honey and Black Rice (Oryza sativa var. Indica cv. Shiun)

In order to brew a red‐coloured alcoholic beverage having antioxidative activity, mead was made from honey and black rice grains. Alcoholic beverages made from honey and black rice grains contained around 10% (v/v) ethyl alcohol and a higher amount of phenolic compounds. Alcoholic beverages made from Chinese milk vetch honey and black rice grain contained anthocyanin and were red in colour similar to pink wine. The amount of total phenolic compounds present in the beverages made using Chinese milk vetch honey and buckwheat honey was 0.2 and 0.4 mg/mL, respectively. The DPPH radical scavenging activity of the mead made from the black rice grains was higher than that of beverages made from polished rice. The inhibitory activity of lipid peroxidation of the mead made from black rice grains was also higher.     

Acid Diffusion into Rice Boluses is Influenced by Rice Type,Variety, and Presence of α‐Amylase

Breakdown of rice during gastric digestion may be influenced by rice structure, presence of salivary α‐amylase, and hydrolysis by gastric acid. During mastication, saliva is mixed with rice, allowing α‐amylase to begin starch hydrolysis. This hydrolysis may continue in the gastric environment depending on the rate at which gastric acid penetrates into the rice bolus. The objective of this study was to determine the acid uptake into rice boluses with and without α‐amylase in saliva. Two types each of brown and white rice (medium and long grain), were formed into a cylindrical‐shaped bolus. Each bolus was sealed on all sides except one to allow one‐dimensional mass transfer, and incubated by immersion in simulated gastric juice at 37 °C under static conditions. Acidity of the boluses was measured by titration after 1 to 96 h of incubation. Effective diffusivity of the gastric juice through the bolus was estimated using MATLAB. Average acidity values ranged from 0.04 mg HCl/g dry matter (medium grain white rice, no incubation) to 10.01 mg HCl/g dry matter (long‐grain brown rice, 72 h incubation). The rice type, presence of α‐amylase, and incubation time all significantly influenced rice bolus acidity (P < 0.001). Effective diffusivity of gastric juice into the bolus was greater in brown rice than in white rice. These results indicate that starch hydrolysis by α‐amylase may continue in the stomach before the gastric acid penetrates the rice bolus, and the rate of acid uptake will depend on the type of rice consumed.     

Comparison of Polyphenol Profile and Inhibitory Activities Against Oxidation and α‐Glucosidase in Mulberry (Genus Morus) Cultivars from China

Mulberry (genus Morus) is a significant source of polyphenols, which can promote positive effects on human health. China has various mulberry cultivars, however, many Chinese mulberry cultivars have been only minimally studied. To solve this lack of research, 8 mulberry cultivars (Da10, Tang10, Yueshen74, Yuefenshen, Longsang, Ningxia1hao, Taiwanguosang, and Baiyuwang) from 4 regions of China were assessed to determine their polyphenol profiles using HPLC‐MS/MS and then tested for their antioxidant and anti‐α‐glucosidase activities in vitro. A total of 18 nonanthocyanins and 4 anthocyanins were quantified in mulberry cultivars; among these polyphenols, chlorogenic acid, quercetin 3‐O‐rutinoside, and cyanidin 3‐O‐glucoside were confirmed as the major phenolic acid, flavonol derivative, and anthocyanin, respectively. Two types of stilbene compounds, piceid, and piceatannol, were detected for the 1st time in all mulberry cultivars. Moreover, the methanolic extracts of different mulberry cultivars showed disparate antioxidant and α‐glucosidase inhibitory activities, and this discrepancy was mainly attributed to varying the anthocyanin content. Based on our results, Taiwanguosang is proposed to be a good candidate suitable for further process due to its high level of anthocyanins.     

黑米的营养功能及综合利用研究进展

黑米是一种在种皮中富集黑色或黑褐色花色苷的稻米,营养丰富,药食兼用,被广泛应用于食品、医药和化工等行业。本文从营养成分（淀粉、蛋白质、脂肪、矿物质、必需氨基酸、维生素、黄酮类、酚酸类和膳食纤维）、功能特性（抗炎症、抗过敏、抗哮喘、抗氧化、抗肿瘤、减肥降脂及降血糖）和综合利用（食品、医药与化工行业）三方面归纳和概述了黑米的研究进展,以期为科学认识和深入研究黑米提供理论依据,为综合利用黑米提供有益借鉴。     

Thirty‐three years of 2‐acetyl‐1‐pyrroline,a principal basmati aroma compound in scented rice (Oryza sativa L.): a status review

Rice is the staple food of around 3 billion people, most of them in Asia which accounts for 90% of global rice consumption. Aromatic rices have been preferred over non‐aromatic rice for hundreds of years. They have a premium value in national as well as international market owing to their unique aroma and quality. Many researchers were involved in identifying the compound responsible for the pleasant aroma in aromatic rice in the 20th century. However, due to its unstable nature, 2‐acetyl‐1‐pyrroline (2AP) was discovered very late, in 1982. Buttery and co‐workers found 2AP to be the principal compound imparting the pleasant aroma to basmati and other scented rice varieties. Since then, 2AP has been identified in all fragrant rice (Oryza sativa L.) varieties and a wide range of plants, animals, fungi, bacteria and various food products. The present article reviews in detail biochemical and genetic aspects of 2AP in living systems. The site of synthesis, site of storage and stability in plant systems in vivo is of interest. This compound requires more research on stability to facilitate use as a food additive. © 2016 Society of Chemical Industry     

Malting of Sorghum: Further Studies on Factors influencing α‐Amylase Activity

The effects of steep regime, nature of alkaline steeping agent, and kilning condition on α‐amylase development were studied for four Nigerian sorghum cultivars. Malt α‐amylase activity was highly significantly (p<.001) influenced by all the four factors as well as their various assortments of interaction. Generally malts from the Local Red (LR) variety produced the highest a‐amylase values, followed by those of SK 5912, Local White and KSV 8 in the above sequence. The presence/absence of air‐rest processes in steep regimes was a significant factor (p<.001) influencing malt α‐amylase response to final warm steeping as well as to the other factors under study. Similarly, the nature of the steeping agent was a very significant determinant of malt α‐amylase response to kilning condition and regime of steeping. Of significant interest was the observation that Ca (OH)₂ steeps enhanced malt α‐amylase activity at the higher temperature of kilning. The significantly lower α‐amylase values given under similar conditions by the other alkaline liquors suggest a possible increase in malt thermostability due to steeping in Ca (OH)₂. Additionally, the fact that the extent of enhancement of malt α‐amylase activity by Ca (OH)₂, at 50°C Kiln temperature, was regime‐dependent, suggests that the latter was an important modulator of sorghum germination physiology.     

Response surface optimization and characteristics of Indica rice starch‐based fat substitute prepared by α‐amylase

Response surface methodology (RSM) was used to study the effect of enzyme to substrate ratio (11.8–23.6 U α‐amylase/g rice starch), hydrolysis temperature (90–100°C) and pH value (6.0–6.6) on the gel strength of rice starches‐based fat substitute using α‐amylase hydrolysis. The optimum conditions obtained from response surface analysis was 16.52 U/g enzyme dosage, 92°C hydrolysis temperature while the influence of pH was found insignificant in the range tested. Under these optimum conditions, the gel strength of this fat substitute was 113 g/cm², very close to the gel strength of butter of 114 g/cm², while the solubility of the substitute was 1.33 ± 0.01% and the swelling power 4.85 ± 0.02. There were no observable differences in the granular size distribution between the untreated rice starch and the hydrolyzed rice starch. Rheological properties of this rice starch‐based fat substitute implied that it is easier for the substitute to form three‐dimensional networks under 34°C.     

Variation in 1‐fructo‐exohydrolase (1‐FEH) and 1‐kestose‐hydrolysing (1‐KH) activities and fructo‐oligosaccharide (FOS) status in onion bulbs. Influence of temperature and storage time

Effects of storage temperature and duration on 1‐fructo‐exohydrolase (1‐FEH) and 1‐kestose‐hydrolysing (1‐KH) activities and trisaccharide (Tri) and fructo‐oligosaccharide (FOS) status in onion bulbs var Tenshin kept for 24 weeks at 10 and 20 °C were investigated. 1‐FEH activity peaked sharply after 10 weeks and seemed to be triggered by a decrease in sucrose content. 1‐KH activity increased during the first 8 weeks and remained stable during the last 8 weeks. Contents of Tri, FOS and total FOS decreased abruptly during the first 8 weeks; however, at 10 °C, contents of Tri, FOS (DP 3–12) and total FOS were lower than those at 20 °C. The consumption rate of fructo‐oligosaccharides also appeared to be higher at 20 °C than at 10 °C, despite the slight degradation in activities observed at this low temperature. 1‐FEH seems to be under the control of a triggering signal which induces its activity, and sucrose seems to be this biochemical signal which initiates dormancy release and the onset of sprouting, as found previously. Thus changes in carbohydrates seem to be a strong indicator of the end of the dormant state of the bulb and the beginning of the sprouting period. Copyright © 2004 Society of Chemical Industry     

Effect of High Hydrostatic Pressure‐Temperature Combinations on the Activity of β‐Glucanase from Barley Malt

β‐Glucanase from barley malt is known to be thermolabile but important in the mashing process. Therefore, the potential of increasing the thermostability of β‐glucanase in ACES buffer (0.1 M, pH 5.6) by high hydrostatic pressure has been investtigated. Inactivation of the enzyme as well as changes of the conversion rate in response to combined pressure‐temperature treatments in the range of 0.1–900 MPa and 30–75°C were assessed by analyzing the kinetic rate constants. A significant stabilization of β‐glucanase against temperature‐induced inactivation was detected at 400 MPa. With increasing pressure up to 600 MPa the catalytic activity of β‐glucanase was progressively decelerated. However, for the overall depolymerization reaction of β‐glucans in ACES buffer (0.1 M, pH 5.6) a maximum was identified at 215 MPa and 55°C yielding approximately 2/3 higher degradation of β‐glucan after 20 min as compared to the maximum at ambient pressure (45°C).     

α‐(1,4)‐Amylase,but not α‐ and β‐(1,3)‐glucanases,may be responsible for the impaired growth and morphogenesis of Paracoccidioides brasiliensis induced by N‐glycosylation inhibition

The cell wall of Paracoccidioides brasiliensis, which consists of a network of polysaccharides and glycoproteins, is essential for fungal pathogenesis. We have previously reported that N‐glycosylation of proteins such as N‐acetyl‐β‐d ‐glucosaminidase is required for the growth and morphogenesis of P. brasiliensis. In the present study, we investigated the influence of tunycamicin (TM)‐mediated inhibition of N‐linked glycosylation on α‐ and β‐(1,3)‐glucanases and on α‐(1,4)‐amylase in P. brasiliensis yeast and mycelium cells. The addition of 15 µg/ml TM to the fungal cultures did not interfere with either α‐ or β‐(1,3)‐glucanase production and secretion. Moreover, incubation with TM did not alter α‐ and β‐(1,3)‐glucanase activity in yeast and mycelium cell extracts. In contrast, α‐(1,4)‐amylase activity was significantly reduced in underglycosylated yeast and mycelium extracts after exposure to TM. In spite of its importance for fungal growth and morphogenesis, N‐glycosylation was not required for glucanase activities. This is surprising because these activities are directed to wall components that are crucial for fungal morphogenesis. On the other hand, N‐glycans were essential for α‐(1,4)‐amylase activity involved in the production of malto‐oligosaccharides that act as primer molecules for the biosynthesis of α‐(1,3)‐glucan. Our results suggest that reduced fungal α‐(1,4)‐amylase activity affects cell wall composition and may account for the impaired growth of underglycosylated yeast and mycelium cells. © 2013 The Authors. Yeast published by John Wiley & Sons Ltd.     

Effect of Mashing Temperatures and Endo-β-Glucanase on β-Glucan Content of Malt Worts

Similar basal levels of β-D-glucans were released into worts produced at 45°C from enzymically active or inactivated flours of milled malts. In contrast, significantly higher levels of β-D-glucans were found in worts derived from either enzymically active or inactivated malt flours mashed at 65°C. In general, mashing temperature may play a more important role in releasing β-D-glucans during mashing than enzymes described as β-glucan-releasing. In this context, the physical release of β-D-glucan during mashing should be separated from the enzymic release and degradation of β-D-glucan which occur during malting.     

Biochemical changes in phosphorus compounds and in the activity of phytase and α-amylase in the rice (Oryza sativa) grain during germination

Changes in the phytic acid, inorganic phosphorus and ATP contents, and in the activity of phytase and α-amylase in rice (Oryza sativa L) grains were determined during 18 days of germination in a dark room. The effect of phytic acid on α-amylase activity was studied in vitro. Rice grains immersed in sterilised deionised water at 14^°C germinated on the fifth day. Phytase activity, detected in the ripening rice grains, increased linearly until the eighth day and reached a maximum on the tenth day. There was a marked decrease in phytate and an increase in inorganic phosphorus accompanying germination. There was a good inverse correlation between the levels of both phytase activity and inorganic phosphorus, and phytate breakdown. α-Amylase activity was detected on the fourth day and increased markedly from the 12th to the 16th day of germination. ATP level increased from the second to the fourth day and slightly decreased from the fourth to the eighth day; it increased rapidly again from the eighth to the 18th day of germination. α-Amylase activity was influenced by both pH and phytic acid concentration in the assay system. At 75 mM phytic acid, α-amylase activity was lowered by 23%, 93% and 52% at pH 4–0, 5–0 and 6–0 respectively. When the enzyme, phytate and Ca²⁺ were incubated together at pH 5–0, the inhibition of α-amylase by phytic acid was markedly decreased by addition of Ca²⁺. The chemical affinity of Ca²⁺ for phytic acid was higher in the reaction at pH 5–0 than in those at pH 4–0 and pH 6–0, and over 98% of Ca²⁺ in the reaction system was precipitated as Ca-phytate.