Enhancement of cellulase production by co-culture of Streptomyces ambofaciens OZ2 and Cytobacillus oceanisediminis OZ5 isolated from rumen samples

IF 1.4 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biocatalysis and Biotransformation Pub Date : 2022-02-11 DOI:10.1080/10242422.2022.2038581

M. Baltaci

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引用次数: 5

Abstract

Abstract Cellulose is considered to be an alternative form of energy, and has recently gained significance representing millions of dollars for countries that have the opportunity to obtain energy from it. At the same time, cellulosic biomaterials are attractive since they are both cheap and abundant. To use this important resource, its stubborn structure must be broken down. Rumen bacteria are regarded as unique for this job. In this study, 17 cellulolytic bacteria were isolated from rumen samples collected from Erzurum slaughterhouses. Three bacteria (OZ2, OZ5, OZ17) with maximum enzyme activity were identified by sequencing the 16S rRNA gene region. As a result of the sequence analysis, it was determined that isolates belong to Streptomyces ambofaciens OZ2, Cytobacillus oceanisediminis OZ5, and Streptomyces violaceochromogenes OZ17. Then, cellulase production potentials of these identified bacteria were investigated as single and co-cultures. The co-culture of OZ2 and OZ5 demonstrated the best cellulase activity (26 U/mL). As a result of the optimization studies for the co-culture of OZ2 and OZ5, the best culture conditions were 3 g/L yeast extract, 60 h incubation time, pH 6, and temperature 35 °C. Under optimized conditions, the cellulase enzyme activity increased approximately 3.5-fold to 56 U/mL.

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双歧杆菌OZ2和海洋细胞芽孢杆菌OZ5共同培养瘤胃纤维素酶产量的研究

摘要纤维素被认为是一种替代能源，最近对有机会从中获得能源的国家来说意义重大，价值数百万美元。与此同时，纤维素生物材料具有吸引力，因为它们既便宜又丰富。要利用这一重要资源，就必须打破其顽固的结构。瘤胃细菌被认为是这项工作的独特之处。在本研究中，从Erzurum屠宰场采集的瘤胃样品中分离出17种纤维素分解菌。通过对16S rRNA基因区进行测序，鉴定出三种酶活性最高的细菌（OZ2、OZ5、OZ17）。序列分析的结果确定分离物属于安氏链霉菌OZ2、海洋嗜铬链霉菌OZ5和紫色链霉菌OZ17。然后，研究了这些已鉴定细菌在单培养和共培养中产生纤维素酶的潜力。OZ 2和OZ 5的共培养物显示出最佳的纤维素酶活性（26 U/mL）。对OZ2和OZ5的共培养进行了优化研究，结果表明，最佳培养条件为3 g/L酵母提取物，60 h培养时间，pH 6，温度35 °C。在优化的条件下，纤维素酶活性提高了约3.5倍，达到56 U/mL。

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来源期刊

Biocatalysis and Biotransformation 生物-生化与分子生物学

CiteScore

4.40

自引率

5.60%

发文量

审稿时长

3 months

期刊介绍： Biocatalysis and Biotransformation publishes high quality research on the application of biological catalysts for the synthesis, interconversion or degradation of chemical species. Papers are published in the areas of: Mechanistic principles Kinetics and thermodynamics of biocatalytic processes Chemical or genetic modification of biocatalysts Developments in biocatalyst''s immobilization Activity and stability of biocatalysts in non-aqueous and multi-phasic environments, including the design of large scale biocatalytic processes Biomimetic systems Environmental applications of biocatalysis Metabolic engineering Types of articles published are; full-length original research articles, reviews, short communications on the application of biotransformations, and preliminary reports of novel catalytic activities.