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. 2022 Oct;119(10):2938-2949.
doi: 10.1002/bit.28188. Epub 2022 Aug 4.

Constructing multi-enzymatic cascade reactions for selective production of 6-bromoindirubin from tryptophan in Escherichia coli

Jeongchan Lee  1   2   3 Joonwon Kim  4 Hyun Kim  1 HyunA Park  5 Jin Young Kim  6 Eun-Jung Kim  2   3 Yung-Hun Yang  7 Kwon-Young Choi  5 Byung-Gee Kim  1   2   3   6   8
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Constructing multi-enzymatic cascade reactions for selective production of 6-bromoindirubin from tryptophan in Escherichia coli

Jeongchan Lee et al. Biotechnol Bioeng. 2022 Oct.

Abstract

6-Bromoindirubin (6BrIR), found in Murex sea snails, is a precursor of indirubin-derivatives anticancer drugs. However, its synthesis remains limited due to uncharacterized biosynthetic pathways and difficulties in site-specific bromination and oxidation at the indole ring. Here, we present an efficient 6BrIR production strategy in Escherichia coli by using four enzymes, that is, tryptophan 6-halogenase fused with flavin reductase Fre (Fre-L3-SttH), tryptophanase (TnaA), toluene 4-monooxygenase (PmT4MO), and flavin-containing monooxygenase (MaFMO). Although most indole oxygenases preferentially oxygenate the electronically active C3 position of indole, PmT4MO was newly characterized to perform C2 oxygenation of 6-bromoindole with 45% yield to produce 6-bromo-2-oxindole. In addition, 6BrIR was selectively generated without indigo and indirubin byproducts by controlling the reducing power of cysteine and oxygen supply during the MaFMO reaction. These approaches led to 34.1 mg/L 6BrIR productions, making it possible to produce the critical precursor of the anticancer drugs only from natural ingredients such as tryptophan, NaBr, and oxygen.

Keywords: 6-bromoindirubin; halogenase; indigoids; monooxygenase; regiospecificity; whole-cell biotransformation.

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