Enhancement of pipecolic acid production by the expression of multiple lysine cyclodeaminase in the Escherichia coli whole-cell system

被引:19
作者
Han, Yeong-Hoon [1 ]
Choi, Tae-Rim [1 ]
Park, Ye-Lim [1 ]
Park, Jun Young [1 ]
Song, Hun-Suk [1 ]
Kim, Hyun Joong [1 ]
Lee, Sun Mi [1 ]
Park, Sol Lee [1 ]
Lee, Hye Soo [1 ]
Bhatia, Shashi Kant [1 ]
Gurav, Ranjit [1 ]
Yang, Yung-Hun [1 ]
机构
[1] Konkuk Univ, Coll Engn, Dept Biol Engn, 1 Hwayang Dong, Seoul 05029, South Korea
来源
ENZYME AND MICROBIAL TECHNOLOGY | 2020年 / 140卷
基金
新加坡国家研究基金会;
关键词
Pipecolic acid (l-PA); Pharmaceutical precursor; Whole-cell bioconversion; Lysine cyclodeaminse (LCD); Reinforced enzyme; CORYNEBACTERIUM-GLUTAMICUM; CADAVERINE PRODUCTION; 5-AMINOVALERIC ACID; GLUTARIC ACID; GROEL-GROES; BIOSYNTHESIS; BIOTRANSFORMATION; TEMPERATURE; GENE; RAPAMYCIN;
D O I
10.1016/j.enzmictec.2020.109643
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
Pipecolic acid, a non-proteinogenic amino acid, is a metabolite in lysine metabolism and a key chiral precursor in local anesthesia and macrolide antibiotics. To replace the environmentally unfriendly chemical production or preparation procedure of pipecolic acid, many biological synthetic routes have been studied for a long time. Among them, synthesis by lysine cyclodeaminase (LCD), encoded by pipA, has several advantages, including stability of enzyme activity and NAD(+) self-regeneration. Thus, we selected this enzyme for pipecolic acid biosynthesis in a whole-cell bioconversion. To construct a robust pipecolic acid production system, we investigated important conditions including expression vector, strain, culture conditions, and other reaction parameters. The most important factor was the introduction of multiple pipA genes into the whole-cell system. As a result, we produced 724 mM pipecolic acid (72.4 % conversion), and the productivity was 0.78 g/L/h from 1 M L-lysine after 5 days. This is the highest production reported to date.
引用
收藏
页数:9
相关论文
共 46 条
[11]   Facilitating the enzymatic conversion of lysineto cadaverine in engineered Escherichia coli with metabolic regulation by genes deletion [J].
Huang, Chih-Yu ;
Ting, Wan-Wen ;
Chen, Ying-Chun ;
Wu, Pong-Yee ;
Dong, Cheng-Di ;
Huang, Shih-Fang ;
Lin, Hung-Yi ;
Li, Sheng-Feng ;
Ng, I-Son ;
Chang, Jo-Shu .
BIOCHEMICAL ENGINEERING JOURNAL, 2020, 156
[12]   ENVIRONMENTAL-CONDITIONS AFFECT TRANSCRIPTION OF THE PECTINASE GENES OF ERWINIA-CHRYSANTHEMI 3937 [J].
HUGOUVIEUXCOTTEPATTAT, N ;
DOMINGUEZ, H ;
ROBERTBAUDOUY, J .
JOURNAL OF BACTERIOLOGY, 1992, 174 (23) :7807-7818
[13]   Whole-cell conversion of L-glutamic acid into gamma-aminobutyric acid by metabolically engineered Escherichia coli [J].
Ke, Chongrong ;
Yang, Xinwei ;
Rao, Huanxin ;
Zeng, Wenchao ;
Hu, Meirong ;
Tao, Yong ;
Huang, Jianzhong .
SPRINGERPLUS, 2016, 5
[14]  
Kim H.T., 2019, ACS SUSTAINABLE CHEM
[15]   Optimization of Direct Lysine Decarboxylase Biotransformation for Cadaverine Production with Whole-Cell Biocatalysts at High Lysine Concentration [J].
Kim, Hyun Joong ;
Kim, Yong Hyun ;
Shin, Ji-Hyun ;
Bhatia, Shashi Kant ;
Sathiyanarayanan, Ganesan ;
Seo, Hyung-Min ;
Choi, Kwon Young ;
Yang, Yung-Hun ;
Park, Kyungmoon .
JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY, 2015, 25 (07) :1108-1113
[16]  
Kim J, 2017, SOC NETW ANAL MIN, V7, P1, DOI [10.1038/srep39768, 10.1007/s13278-017-0428-3, 10.1038/s41598-017-03492-4]
[17]   Biotransformation of pyridoxal 5′-phosphate from pyridoxal by pyridoxal kinase (pdxY) to support cadaverine production in Escherichia coli [J].
Kim, Jung-Ho ;
Kim, Junyoung ;
Kim, Hyun-Joong ;
Sathiyanarayanan, Ganesan ;
Bhatia, Shashi Kant ;
Song, Hun-Suk ;
Choi, Yong-Keun ;
Kim, Yun-Gon ;
Park, Kyungmoon ;
Yang, Yung-Hun .
ENZYME AND MICROBIAL TECHNOLOGY, 2017, 104 :9-15
[18]   Functional Study of Lysine Decarboxylases from Klebsiella pneumoniae in Escherichia coli and Application of Whole Cell Bioconversion for Cadaverine Production [J].
Kim, Jung-Ho ;
Kim, Hyun Joong ;
Kim, Yong Hyun ;
Jeon, Jong Min ;
Song, Hun Suk ;
Kim, Junyoung ;
No, So-Young ;
Shin, Ji-Hyun ;
Choi, Kwon-Young ;
Park, Kyung Moon ;
Yang, Yung-Hun .
JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY, 2016, 26 (09) :1586-1592
[19]   Production of Rapamycin in Streptomyces hygroscopicus from Glycerol-Based Media Optimized by Systemic Methodology [J].
Kim, Yong Hyun ;
Park, Bu Soo ;
Bhatial, Shashi Kant ;
Seo, Hyung-Min ;
Jeon, Jong-Min ;
Kim, Hyun-Joong ;
Yi, Da-Hye ;
Lee, Ju-Hee ;
Choi, Kwon-Young ;
Park, Hyung-Yeon ;
Kim, Yun-Gon ;
Yang, Yung-Hun .
JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY, 2014, 24 (10) :1319-1326
[20]  
Kimura Eiichiro, 2003, Adv Biochem Eng Biotechnol, V79, P37
12345