Use of co-immobilized beta-amylase and pullulanase in reduction of saccharification time of starch and increase in maltose yield

Atia KS; Ismail SA; El-Arnaouty MB; Dessouki AM

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Use of co-immobilized beta-amylase and pullulanase in reduction of saccharification time of starch and increase in maltose yield

机译：使用共固定的β-淀粉酶和支链淀粉酶减少淀粉的糖化时间并增加麦芽糖的产量

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beta-Amylase and pullulanase were co-immobilized to poly(acrylamide-acrylic acid) resin [P(AAm-AAc)] using 1-ethyl-3-(3-dimethylaminopropyl) carbodimide hydrochloride (EDC). The combined beta-amylase and pullulanase activity was 32% relative to the nonimmobilized beta-amylase. Co-immobilization of beta-amylase and pullulanase increased the maltose yield compared to thart of the immobilized beta-amylase alone and reduced the saccharification time to about 50 h. The results showed that there is a significant increase in the thermal stability, pH stability, and stability toward gamma irradiation. The results also suggest that the co-immobilization of beta-amylase and pullulanase is a potentially useful approach for commercial starch hydrolysis.

机译：使用1-乙基-3-（3-二甲基氨基丙基）碳二亚胺盐酸盐（EDC）将β-淀粉酶和支链淀粉酶共固定在聚（丙烯酰胺-丙烯酸）树脂[P（AAm-AAc）]上。相对于未固定的β-淀粉酶，β-淀粉酶和支链淀粉酶的组合活性为32％。与单独的固定化β-淀粉酶相比，β-淀粉酶和支链淀粉酶的共同固定化增加了麦芽糖的产量，并将糖化时间减少到约50小时。结果表明，热稳定性，pH稳定性和对伽马辐射的稳定性显着提高。结果还表明，β-淀粉酶和支链淀粉酶的共同固定化是用于商业淀粉水解的潜在有用的方法。

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《Biotechnology Progress》 |2003年第3期|共5页
作者
Atia KS; Ismail SA; El-Arnaouty MB; Dessouki AM;
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正文语种 eng
中图分类生物工程学（生物技术）;分子生物学;
关键词
Saccharomyces-cerevisiae; Coimmobilization; Enzymes; Cells;

机译：酿酒酵母共固定化酶细胞;

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1. Use of co-immobilized beta-amylase and pullulanase in reduction of saccharification time of starch and increase in maltose yield [J] . Atia KS, Ismail SA, El-Arnaouty MB, Biotechnology Progress . 2003,第3期

机译：使用共固定的β-淀粉酶和支链淀粉酶减少淀粉的糖化时间并增加麦芽糖的产量
2. Encapsulation of beta-amylase in water-oil-water enzyme emulsion liquid membrane (EELM) bioreactor for enzymatic conversion of starch to maltose [J] . Priyanka B. S., Rastogi Navin K. Preparative biochemistry & biotechnology: An international journal for rapid communication . 2020,第1a5期

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3. The Effects of beta-Amylase Activity and Starch Pasting Temperature on Maltose Generation in Steamed Storage Roots of Sweet Potato [J] . Nakamura Yoshiyuki, Kuranouchi Toshikazu, Ohara-Takada Akiko, 日本食品科学工学会誌 . 2014,第12期

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机译：通过研究高粱，淀粉生物合成，结构和热性能的作用通过研究高粱增加胶囊酶活性

Use of co-immobilized beta-amylase and pullulanase in reduction of saccharification time of starch and increase in maltose yield

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