Enhancing anthranilic acid biosynthesis using biosensor-assisted cell selection and in situ product removal

TY - JOUR

T1 - Enhancing anthranilic acid biosynthesis using biosensor-assisted cell selection and in situ product removal

AU - Li, Zhenghong

AU - Lu, Yingxi

AU - Wang, Xiaonan

AU - Vekaria, Ashil

AU - Jiang, Ming

AU - Zhang, Haoran

N1 - Publisher Copyright: © 2020 Elsevier B.V.

PY - 2020/10/15

Y1 - 2020/10/15

N2 - Anthranilic acid is an important chemical with recognized industrial values. As a precursor of amino acid tryptophan, anthranilic acid can be over-produced by engineering the tryptophan biosynthesis pathway. In this study, we utilized metabolic engineering approaches to enable anthranilic acid production in bacterium E. coli. Furthermore, an anthranilic acid biosensor-assisted cell selection technique was adopted to improve the microbial cell population composition and the overall production performance. An anthranilic acid in situ extraction method was also recruited to reduce the product accumulation and facilitate the cell selection. Based on these efforts, the engineered E. coli produced 688 mg/L anthranilic acid from glucose within 48 h. The results of this work hereby demonstrate the effectiveness of coupling biosensor-assisted cell selection and in situ product removal for microbial biosynthesis enhancement.

AB - Anthranilic acid is an important chemical with recognized industrial values. As a precursor of amino acid tryptophan, anthranilic acid can be over-produced by engineering the tryptophan biosynthesis pathway. In this study, we utilized metabolic engineering approaches to enable anthranilic acid production in bacterium E. coli. Furthermore, an anthranilic acid biosensor-assisted cell selection technique was adopted to improve the microbial cell population composition and the overall production performance. An anthranilic acid in situ extraction method was also recruited to reduce the product accumulation and facilitate the cell selection. Based on these efforts, the engineered E. coli produced 688 mg/L anthranilic acid from glucose within 48 h. The results of this work hereby demonstrate the effectiveness of coupling biosensor-assisted cell selection and in situ product removal for microbial biosynthesis enhancement.

KW - Anthranilic acid

KW - Biosensor-assisted selection

KW - E. coli

KW - In situ product removal

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U2 - 10.1016/j.bej.2020.107722

DO - 10.1016/j.bej.2020.107722

M3 - Article

SN - 1369-703X

VL - 162

JO - Biochemical Engineering Journal

JF - Biochemical Engineering Journal

M1 - 107722

ER -