Biocatalytic conversion of lignin to aromatic dicarboxylic acids in Rhodococcus jostii RHA1 by re-routing aromatic degradation pathways

Mycroft Zoe; Gomis Maria; Mines Paul; Law Paul; Bugg Timothy D. H.

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Biocatalytic conversion of lignin to aromatic dicarboxylic acids in Rhodococcus jostii RHA1 by re-routing aromatic degradation pathways

机译：通过重新路由芳香族降解途径将木素生物转化为香红球菌RHA1中的芳香族二羧酸

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The heteropolymer lignin represents an untapped resource for production of renewable aromatic chemicals, if efficient depolymerisation methods can be developed. In this work, the metabolic pathways in Rhodococcus jostii RHA1 for degradation of aromatic lignin breakdown products are re-routed, in order to generate an aromatic dicarboxylic acid product that could be used for bioplastic synthesis. Protocatechuic acid is normally metabolised via ortho-cleavage to the beta-keto-adipate pathway. Insertion of recombinant genes for protocatechuate 4,5-dioxygenase or protocatechuate 2,3-dioxygenase into R. jostii RHA1, followed by ammonia cyclisation of the extradiol cleavage products, generates pyridine 2,4-dicarboxylic acid or pyridine 2,5-dicarboxylic acid bioproducts in yields of 80-125 mg L-1 when grown on minimal media containing 1% wheat straw lignocellulose.

机译：如果可以开发有效的解聚方法，则杂聚物木质素代表了可再生芳香族化学品生产的未开发资源。在这项工作中，重路由红球菌RHA1中降解芳香族木质素分解产物的代谢途径，以生成可用于生物塑料合成的芳香族二羧酸产物。原儿茶酸通常通过邻位裂解代谢为β-酮己二酸途径。将原儿茶酸4,5-二加氧酶或原儿茶酸2,3-二加氧酶的重组基因插入R. jostii RHA1，然后将多余的二醇裂解产物进行氨环化，生成吡啶2,4-二羧酸或吡啶2,5-二羧酸在含有1％小麦秸秆木质纤维素的基本培养基上生长时，生物产品的产量为80-125 mg L-1。

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《Green chemistry》 |2015年第11期|共6页
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Mycroft Zoe; Gomis Maria; Mines Paul; Law Paul; Bugg Timothy D. H.;
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正文语种 eng
中图分类环境化学;数理科学和化学;化学工业废物处理与综合利用;
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1. Biocatalytic conversion of lignin to aromatic dicarboxylic acids in Rhodococcus jostii RHA1 by re-routing aromatic degradation pathways [J] . Mycroft Zoe, Gomis Maria, Mines Paul, Green chemistry . 2015,第11期

机译：通过重新路由芳香族降解途径将木素生物转化为香红球菌RHA1中的芳香族二羧酸
2. Metabolic engineering of Rhodococcus jostii RHA1 for production of pyridine-dicarboxylic acids from lignin [J] . Edward M. Spence, Leonides Calvo-Bado, Paul Mines, Microbial Cell Factories . 2021,第1期

机译：rhodococcus rha1的代谢工程，用于从木质素生产吡啶 - 二羧酸
3. Dual Two-Component Regulatory Systems Are Involved in Aromatic Compound Degradation in a Polychlorinated-Biphenyl Degrader, Rhodococcus jostii RHA1 [J] . Hisashi Takeda, Jun Shimodaira, Kiyoshi Yukawa, Journal of bacteriology . 2010,第18期

机译：双二组分调节系统参与多氯联苯降解器Rhodococcus jostii RHA1中的芳香族化合物降解。
4. PCB 分解菌Rhodococcus jostii RHA1 におけるPCB 分解遺伝子群転写抑制に関与する物質の特定 [C] . 伊藤　拓, 佐藤　謙太, 遠藤　銀朗, 土木学会平成21年度全国大会年次学術講演会 . 2009

机译：鉴定参与红景天红球菌RHA1中PCB降解基因转录抑制的物质
5. Biocatalytic conversion of D-glucose into aromatics. [D] . Dell, Kristi A. 1993

机译：D-葡萄糖向芳族化合物的生物催化转化。
6. Dual Two-Component Regulatory Systems Are Involved in Aromatic Compound Degradation in a Polychlorinated-Biphenyl Degrader Rhodococcus jostii RHA1 [O] . Hisashi Takeda, Jun Shimodaira, Kiyoshi Yukawa, 2010

机译：双双组分调节系统参与多氯联苯降解器Rhodococcus jostii RHA1中的芳香化合物降解。
7. Biocatalytic conversion of lignin to aromatic dicarboxylic acids in Rhodococcus jostii RHA1 by re-routing aromatic degradation pathways [O] . Mycroft, Zoe, Gomis, Maria, Mine, Paul, 2015

机译：通过重新路由芳香族降解途径将木素生物转化为香气红球菌RHA1中的芳香族二羧酸

Biocatalytic conversion of lignin to aromatic dicarboxylic acids in Rhodococcus jostii RHA1 by re-routing aromatic degradation pathways

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