Jianqi Han, Meng Zhang, Yilong Wang, Zhidan Liu, Xiaohui Shi, Yucai He, Jie Zhu, Xia Yi
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引用次数: 0
摘要
从木质素中提取的丁香醛是生产基本化学品的重要中间体之一。然而,人们对丁香醛的微生物直接转化知之甚少。在此,本研究尝试使用冷等离子体技术来提高假单胞菌(Pseudomonas putida)的丁香醛转化率。研究表明,通过冷等离子体处理的单因素测定,在 35 s 条件下,3 h 细胞生长和 6 h 丁香醛转化率分别提高了 1.49 倍和 1.60 倍;在 140 W 条件下,分别提高了 1.16 倍和 3.44 倍;在 105 Pa 条件下,分别提高了 1.63 倍和 4.02 倍。可以肯定的是,在最佳参数(35 秒、140 瓦和 105 帕)下,普氏菌的细胞生长和丁香醛转化率在 3 小时内分别提高了 1.14 倍和 5.54 倍。此外,基因组重测序进一步发现了 P. putida 的单核苷酸多态性,如 PP_2589 (A428V)、PP_5651 (V82F) 和 PP_0545 (W335R),从而表明冷等离子体处理产生的潜在基因变化是加速丁香醛转化的原因。这项工作将为微生物生物转化增值和木质素类生化产品提供强大的菌株催化剂和潜在的候选基因突变位点。
Cold Plasma Treatment Facilitated the Conversion of Lignin-Derived Aldehyde for Pseudomonas putida.
Syringaldehyde derived from lignin is one of the essential intermediates for the production of basic chemicals. However, it was poorly understood for the direct microbial conversion of syringaldehyde. Here, this study tried to use cold plasma technique to enhance syringaldehyde conversion for the bacterium Pseudomonas putida. It illustrated that cell growth and syringaldehyde conversion were separately increased by 1.49 times at 3 h and 1.60 times at 6 h for 35 s, 1.16 and 3.44 times for 140 W, and 1.63 and 4.02 times for 105 Pa for P. putida through single factor assays of cold plasma treatment. To be sure, cell growth and syringaldehyde conversion were enhanced by 1.14 and 5.54 times at 3 h under the optimum parameters (35 s, 140 W, and 105 Pa) for P. putida. Furthermore, genome re-sequencing further discovered single-nucleotide polymorphisms of P. putida, such as PP_2589 (A428V), PP_5651 (V82F), and PP_0545 (W335R), and thus indicated that the potential genetic changes derived from cold plasma treatment would be responsible for the acceleration of syringaldehyde conversion. This work would provide a robust strain catalyst and the potential candidate mutation sites for genetic manipulation for microbial bioconversion of the value-added and lignin-based biochemicals.
期刊介绍:
This journal is devoted to publishing the highest quality innovative papers in the fields of biochemistry and biotechnology. The typical focus of the journal is to report applications of novel scientific and technological breakthroughs, as well as technological subjects that are still in the proof-of-concept stage. Applied Biochemistry and Biotechnology provides a forum for case studies and practical concepts of biotechnology, utilization, including controls, statistical data analysis, problem descriptions unique to a particular application, and bioprocess economic analyses. The journal publishes reviews deemed of interest to readers, as well as book reviews, meeting and symposia notices, and news items relating to biotechnology in both the industrial and academic communities.
In addition, Applied Biochemistry and Biotechnology often publishes lists of patents and publications of special interest to readers.
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