PRODUCTION AND CHARACTERIZATION OF THERMOPHILIC CARBOXYMETHYL CELLULASE SYNTHESIZED BY Bacillus sp. GROWING ON SUGARCANE BAGASSE IN SUBMERGED FERMENTATION

D. A. M. Araújo; F. L. Honorato Da Silva; I. Q. M. Padilha; L. C. T. Carvalho; P. V. S. Dias; S. F. M. Santos; T. C. S. L. Grisi

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PRODUCTION AND CHARACTERIZATION OF THERMOPHILIC CARBOXYMETHYL CELLULASE SYNTHESIZED BY Bacillus sp. GROWING ON SUGARCANE BAGASSE IN SUBMERGED FERMENTATION

机译：芽孢杆菌（Bacillus sp。）合成的嗜热羧甲基纤维素酶的制备与鉴定。在水下发酵中在甘蔗渣上生长

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Abstract The production and characterization of cellulase from thermophilic strain Bacillus sp. C1AC5507 was studied. For enzyme production, sugarcane bagasse was used as carbon source. The produced carboxymethyl cellulase (CMCase) had a molecular weight around 55 kDa and its activity varied between 0.14 and 0.37 IU mL-1 in conditions predicted by Response Surface Methodology. The optimum temperature and pH for the CMCase production were 70 °C and 7.0, respectively. The enzyme activity was inhibited mostly by Cu+2 and activated mostly by Co+2, Mn2+, Ca+2 and Fe+3. Our findings provide a contribution to the use of natural wastes such as sugarcane bagasse as substrate for growth and production of thermophilic CMCase. Further optimization to increase the production of cellulase enables the use in industrial applications.

机译：摘要嗜热芽孢杆菌（Bacillus sp。）的纤维素酶的生产及鉴定。研究了C1AC5507。为了生产酶，甘蔗渣用作碳源。所产生的羧甲基纤维素酶（CMCase）的分子量约为55 kDa，在响应表面方法学预测的条件下，其活性在0.14至0.37 IU mL-1之间变化。用于CMCase生产的最佳温度和pH分别为70°C和7.0。酶活性主要被Cu + 2抑制，而主要被Co + 2，Mn2 +，Ca + 2和Fe + 3激活。我们的发现为使用诸如甘蔗渣等自然废物作为嗜热CMCase的生长和生产提供了基础。进一步优化以增加纤维素酶的产量使得能够在工业应用中使用。

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《Brazilian journal of chemical engineering》 |2015年第1期|共8页
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D. A. M. Araújo; F. L. Honorato Da Silva; I. Q. M. Padilha; L. C. T. Carvalho; P. V. S. Dias; S. F. M. Santos; T. C. S. L. Grisi;
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1. PRODUCTION AND CHARACTERIZATION OF THERMOPHILIC CARBOXYMETHYL CELLULASE SYNTHESIZED BY Bacillus sp GROWING ON SUGARCANE BAGASSE IN SUBMERGED FERMENTATION [J] . Padilha I. Q. M., Carvalho L. C. T., Dias P. V. S., Brazilian journal of chemical engineering . 2015,第1期

机译：枯草芽孢杆菌在深层发酵中生长的芽孢杆菌合成的嗜热羧甲基纤维素酶的生产及表征
2. Partial purification and sugarcane bagasse induction of extracellular thermostable Amylase by Bacillus sp. under submerged fermentation [J] . Shubhangi Canadian Journal of Biotechnology . 2017,第SpecialaIssue期

机译：芽孢杆菌的部分纯化和甘蔗渣诱导的胞外热稳定淀粉酶。水下发酵
3. Evaluation of different fungi and bacteria strains for production of cellulases by submerged fermentation using sugarcane bagasse as carbon source: Effect of substrate concentration and cultivation temperature [J] . Laura M. Pinotti, Larissa B. Paulino, Jacyele C. Agnezi, African Journal of Biotechnology . 2020,第9期

机译：用甘蔗甘蔗群作为碳源浸没发酵产生纤维素酶的不同真菌和细菌菌株的评价：底物浓度和栽培温度的影响
4. Production and Partial Characterization of Carboxymethyl Cellulase from Trichoderma sp. and Aspergillus niger in Solid State Fermentation [C] . Nabila Belhamiche, Azeddine Bettache, Mouloud Kecha, Proceedings of the 18th congress of the International Society for Mushroom Science . 2012

机译：木霉菌羧甲基纤维素酶的生产及部分表征和黑曲霉固态发酵
5. Conversion of sugarcane bagasse to carboxylic acids under thermophilic conditions. [D] . Fu, Zhihong. 2007

机译：在高温条件下甘蔗渣转化为羧酸。
6. Moderate alkali-thermophilic ethanologenesis by locally isolated Bacillus licheniformis from Pakistan employing sugarcane bagasse: a comparative aspect of aseptic and non-aseptic fermentations [O] . Qurat-ul-Ain Ahmad, Shang-Tian Yang, Maleeha Manzoor, 2017

机译：来自巴基斯坦的局部分离的地衣芽孢杆菌使用甘蔗渣进行中度碱温热乙醇生成：无菌和非无菌发酵的比较方面
7. PRODUCTION AND CHARACTERIZATION OF THERMOPHILIC CARBOXYMETHYL CELLULASE SYNTHESIZED BY Bacillus sp. GROWING ON SUGARCANE BAGASSE IN SUBMERGED FERMENTATION [O] . I. Q. M. Padilha, L. C. T. Carvalho, P. V. S. Dias, 2015

机译：芽孢杆菌合成嗜热羧甲基纤维素酶的生产与表征在浸泡式发酵中生长甘蔗的成分

PRODUCTION AND CHARACTERIZATION OF THERMOPHILIC CARBOXYMETHYL CELLULASE SYNTHESIZED BY Bacillus sp. GROWING ON SUGARCANE BAGASSE IN SUBMERGED FERMENTATION

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