Physiological and biochemical characteristics of the carbon ion beam irradiation-generated mutant strain Clostridium butyricum FZM 240 in vitro and in vivo

IF 3.4 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Ya-Juan Wang , Xiang Zhou , Miao-Miao Zhang , Mei-Han Liu , Nan Ding , Qing-Feng Wu , Cai-Rong Lei , Zi-Yi Dong , Jun-Le Ren , Jing-Ru Zhao , Cheng-Lin Jia , Jun Liu , Bo Zhou , Dong Lu
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Abstract

Clostridium butyricum (C. butyricum) represents a new generation of probiotics, which is beneficial because of its good tolerance and ability to produce beneficial metabolites, such as short-chain fatty acids and enzymes; however, its low enzyme activity limits its probiotic efficacy. In this study, a mutant strain, C. butyricum FZM 240 was obtained using carbon ion beam irradiation, which exhibited greatly improved enzyme production and tolerance. The highest filter paper, endoglucanase, and amylase activities produced by C. butyricum FZM 240 were 125.69 U/mL, 225.82 U/ mL, and 252.28 U/mL, which were 2.58, 1.95, and 2.21-fold higher, respectively, than those of the original strain. The survival rate of the strain increased by 11.40 % and 5.60 % after incubation at 90 °C for 5 min and with simulated gastric fluid at pH 2.5 for 2 h, respectively, compared with that of the original strain. Whole-genome resequencing and quantitative real-time PCR(qRT-PCR) analysis showed that the expression of genes related to enzyme synthesis (GE000348, GE001963 and GE003123) and tolerance (GE001114) was significantly up-regulated, while that of genes related to acid metabolism (GE003450) was significantly down-regulated. On this basis, homology modeling and functional prediction of the proteins encoded by the mutated genes were performed. According to the results, the properties related to the efficacy of C. butyricum as a probiotic were significantly enhanced by carbon ion beam irradiation, which is a novel strategy for the application of Clostridium spp. as feed additives.

碳离子束辐照产生的突变菌株丁酸梭菌 FZM 240 在体外和体内的生理生化特征
丁酸梭菌(C. butyricum)是新一代益生菌的代表,因其良好的耐受性和产生有益代谢物(如短链脂肪酸和酶)的能力而对人体有益;但其酶活性较低,限制了其益生菌功效。在本研究中,利用碳离子束辐照技术获得了一株突变菌株 C. butyricum FZM 240,其产酶量和耐受性都有很大提高。C. butyricum FZM 240产生的滤纸酶、内切葡聚糖酶和淀粉酶的最高活性分别为125.69 U/mL、225.82 U/mL和252.28 U/mL,分别是原菌株的2.58倍、1.95倍和2.21倍。与原始菌株相比,该菌株在 90 °C 温育 5 分钟和 pH 值为 2.5 的模拟胃液中培养 2 小时后的存活率分别提高了 11.40 % 和 5.60 %。全基因组重测序和实时定量 PCR(qRT-PCR)分析表明,与酶合成(GE000348、GE001963 和 GE003123)和耐受性(GE001114)相关的基因表达明显上调,而与酸代谢(GE003450)相关的基因表达明显下调。在此基础上,对突变基因编码的蛋白质进行了同源建模和功能预测。研究结果表明,碳离子束辐照能明显提高丁酸梭菌作为益生菌的功效,这是一种将梭菌属应用于饲料添加剂的新策略。
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来源期刊
Enzyme and Microbial Technology
Enzyme and Microbial Technology 生物-生物工程与应用微生物
CiteScore
7.60
自引率
5.90%
发文量
142
审稿时长
38 days
期刊介绍: Enzyme and Microbial Technology is an international, peer-reviewed journal publishing original research and reviews, of biotechnological significance and novelty, on basic and applied aspects of the science and technology of processes involving the use of enzymes, micro-organisms, animal cells and plant cells. We especially encourage submissions on: Biocatalysis and the use of Directed Evolution in Synthetic Biology and Biotechnology Biotechnological Production of New Bioactive Molecules, Biomaterials, Biopharmaceuticals, and Biofuels New Imaging Techniques and Biosensors, especially as applicable to Healthcare and Systems Biology New Biotechnological Approaches in Genomics, Proteomics and Metabolomics Metabolic Engineering, Biomolecular Engineering and Nanobiotechnology Manuscripts which report isolation, purification, immobilization or utilization of organisms or enzymes which are already well-described in the literature are not suitable for publication in EMT, unless their primary purpose is to report significant new findings or approaches which are of broad biotechnological importance. Similarly, manuscripts which report optimization studies on well-established processes are inappropriate. EMT does not accept papers dealing with mathematical modeling unless they report significant, new experimental data.
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