Direct catalytic oxidation of rice husk lignin with hydroxide nanorod-modified copper foam and muconate production by engineered Pseudomonas sp. NGC7

IF 2.3 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of bioscience and bioengineering Pub Date : 2024-08-26 DOI:10.1016/j.jbiosc.2024.07.016
Akihiro Yoshida , Irwan Kurnia , Yudai Higuchi , Yuta Osaka , Chieko Yasuta , Chiho Sakamoto , Mina Tamura , Tsubasa Takamatsu , Naofumi Kamimura , Eiji Masai , Tomonori Sonoki
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Abstract

For the direct alkaline oxidation of rice husk lignin, we developed a copper foam-based heterogeneous catalyst that offers advantages in its recovery after the reaction mixture. The depolymerized products were utilized for muconate production by an engineered Pseudomonas sp. NGC7-based strain. A hydroxide nanorod-modified copper foam was prepared by the surface oxidation of copper foam, followed by alkaline oxidation of rice husk lignin over the catalyst. The catalyst was easily separated from the cellulosic residues in the reaction mixture, and the residues were then recovered by filtration. The resulting lignin stream was composed of a variety of aromatic monomers containing p-hydroxyphenyl, guaiacyl, and syringyl compounds. The catabolic activity of Pseudomonas sp. NGC7 was demonstrated to be more suitable for muconate production from a mixture comprising 4-hydroxybenzoate (a typical p-hydroxyphenyl compound), vanillate (a guaiacyl compound), and syringate (a syringyl compound), owing to its natural ability to grow on syringate. Thus, it was applied to produce muconate from a rice husk lignin stream prepared through hydroxide nanorod-modified copper foam-catalyzed alkaline oxidation by conferring the genes responsible for converting the acetophenone derivatives to their corresponding aromatic acids and protocatechuate decarboxylase to an NGC7-based strain deficient in protocatechuate 3,4-dioxygenase and muconate cycloisomerase. As a result, the engineered NGC7-based muconate-producing strain produced muconate selectively from the rice husk lignin stream at 93.7 mol% yield.
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利用氢氧化物纳米改性泡沫铜直接催化氧化稻壳木质素并利用工程假单胞菌 NGC7 生产粘液酸。
针对稻壳木质素的直接碱性氧化,我们开发了一种基于泡沫铜的异相催化剂,这种催化剂在反应混合物后的回收方面具有优势。解聚产物被一种基于 NGC7 的假单胞菌工程菌株用于生产粘液酸盐。通过对泡沫铜进行表面氧化,然后在催化剂上对稻壳木质素进行碱性氧化,制备出了氢氧化物纳米od 改性泡沫铜。催化剂很容易与反应混合物中的纤维素残留物分离,然后通过过滤回收残留物。生成的木质素流由多种芳香族单体组成,其中含有对羟基苯基、愈创木酰基和丁香酰基化合物。由于 NGC7 假单胞菌具有在丁香酸盐上生长的天然能力,它的分解活性被证明更适合从由 4-羟基苯甲酸酯(一种典型的对羟基苯基化合物)、香草酸酯(一种愈创木酰基化合物)和丁香酸酯(一种丁香酰基化合物)组成的混合物中生产粘液酸盐。因此,通过将负责将苯乙酮衍生物转化为相应芳香酸的基因和原儿茶酸脱羧酶赋予缺乏原儿茶酸 3,4-二氧 化酶和粘液环异构酶的 NGC7 菌株,该菌株被用于从通过氢氧化物纳米od修饰的泡沫铜催化碱性氧化制备的稻壳木质素流中生产粘液。结果,基于 NGC7 的工程化粘菌酸生产菌株从稻壳木质素流中选择性地生产出了粘菌酸,产量为 93.7 摩尔%。
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来源期刊
Journal of bioscience and bioengineering
Journal of bioscience and bioengineering 生物-生物工程与应用微生物
CiteScore
5.90
自引率
3.60%
发文量
144
审稿时长
51 days
期刊介绍: The Journal of Bioscience and Bioengineering is a research journal publishing original full-length research papers, reviews, and Letters to the Editor. The Journal is devoted to the advancement and dissemination of knowledge concerning fermentation technology, biochemical engineering, food technology and microbiology.
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