A thermo-tolerant cellulase enzyme produced by Bacillus amyloliquefaciens M7, an insight into synthesis, optimization, characterization, and bio-polishing activity

IF 3.8 4区工程技术 Q2 CHEMISTRY, MULTIDISCIPLINARY

Green Processing and Synthesis Pub Date : 2023-01-01 DOI:10.1515/gps-2023-0127

Amr Fouda, Khalid Sulaiman Alshallash, Hossam Mohamed Atta, Mamdouh Salem El-Gamal, Mohamed Mostafa Bakry, Mohammed Ibrahim Alghonaim, Salem Salah Salem

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Abstract

Abstract In the current study, among 36 isolates, the bacterial strain M7 was selected as the highest cellulase producer and underwent traditional and molecular identification as Bacillus amyloliquefaciens M7. The productivity of the cellulase enzyme was optimized using the one-factor-at-a-time method. The optimization analysis showed that the best pH value for cellulase production was 7, in the presence of 1% bacterial inoculum size, 5 g·L −1 of carboxymethyl cellulose, 5 g·L −1 of peptone as nitrogen source, and incubation period of 24 h at a temperature of 35°C. The highest cellulase activity (64.98 U·mL −1 ) was obtained after optimizing conditions using BOX-Behnken Design. The maximum cellulase yield (75.53%) was obtained after precipitation by 60% ammonium sulfate, followed by purification by dialysis bag and Sephadex G-100 column chromatography. The purified cellulase enzyme was characterized by 6.38-fold enrichment, with specific activity (60.54 U·mg −1 ), and molecular weight of approximately 439.0 Da. The constituent of purified cellulase was 18 amino acids with high concentrations of 200 and 160 mg·L −1 for glycine and arginine, respectively. The purified cellulase enzyme was more stable and active at pH 8 and an incubation temperature of 50°C. The metal ions CaCl 2 , NaCl, and ZnO enhanced the activity of purified cellulase enzyme. Finally, the B. amyloliquefaciens M7-cellulase exhibits high bio-polishing activity of cotton fabrics with low weight loss (4.3%) which was attained at a maximum concentration (1%, v/v) for 90 min.

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一种由解淀粉芽孢杆菌M7产生的耐热纤维素酶，对合成、优化、表征和生物抛光活性的深入研究

摘要本研究在36株分离菌株中，选择M7菌株作为纤维素酶产量最高的菌株，对其进行传统分子鉴定为解淀粉芽孢杆菌M7。采用单因子法优化纤维素酶的产率。优化分析表明，在细菌接种量为1%、羧甲基纤维素用量为5 g·L−1、蛋白胨用量为5 g·L−1的条件下，产酶的最佳pH值为7，培养时间为24 h，温度为35℃。采用BOX-Behnken设计优化条件后，获得最高的纤维素酶活性(64.98 U·mL−1)。经60%硫酸铵沉淀，透析袋纯化，Sephadex G-100柱层析，纤维素酶得率最高，为75.53%。纯化后的纤维素酶富集6.38倍，比活性为60.54 U·mg−1，分子量约为439.0 Da。纯化后的纤维素酶由18个氨基酸组成，其中甘氨酸和精氨酸的浓度分别为200和160 mg·L−1。纯化后的纤维素酶在pH为8、培养温度为50℃时具有较高的稳定性和活性。氯化钠、氯化钠和氧化锌等金属离子增强了纯化纤维素酶的活性。最后，解淀粉芽孢杆菌m7纤维素酶对棉织物的生物抛光活性高，失重率低(4.3%)，最大浓度(1%，v/v)为90 min。

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来源期刊

Green Processing and Synthesis CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL

CiteScore

6.70

自引率

9.30%

发文量

审稿时长

7 weeks

期刊介绍： Green Processing and Synthesis is a bimonthly, peer-reviewed journal that provides up-to-date research both on fundamental as well as applied aspects of innovative green process development and chemical synthesis, giving an appropriate share to industrial views. The contributions are cutting edge, high-impact, authoritative, and provide both pros and cons of potential technologies. Green Processing and Synthesis provides a platform for scientists and engineers, especially chemists and chemical engineers, but is also open for interdisciplinary research from other areas such as physics, materials science, or catalysis.