Literature DB >> 28879681

Aromatic Halogenation by Using Bifunctional Flavin Reductase-Halogenase Fusion Enzymes.

Mary C Andorfer1, Ketaki D Belsare1, Anna M Girlich1, Jared C Lewis1.   

Abstract

The remarkable site selectivity and broad substrate scope of flavin-dependent halogenases (FDHs) has led to much interest in their potential as biocatalysts. Multiple engineering efforts have demonstrated that FDHs can be tuned for non-native substrate scope and site selectivity. FDHs have also proven useful as in vivo biocatalysts and have been successfully incorporated into biosynthetic pathways to build new chlorinated aromatic compounds in several heterologous organisms. In both cases, reduced flavin cofactor, usually supplied by a separate flavin reductase (FR), is required. Herein, we report functional synthetic, fused FDH-FR proteins containing various FDHs and FRs joined by different linkers. We show that FDH-FR fusion proteins can increase product titers compared to the individual components for in vivo biocatalysis in Escherichia coli.
© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  biocatalysis; directed evolution; enzymes; halogenation; regioselectivity

Mesh:

Substances:

Year:  2017        PMID: 28879681      PMCID: PMC5898195          DOI: 10.1002/cbic.201700391

Source DB:  PubMed          Journal:  Chembiochem        ISSN: 1439-4227            Impact factor:   3.164


  33 in total

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Review 4.  The unique role of halogen substituents in the design of modern agrochemicals.

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5.  Ruthenium(II)-catalyzed C-H bond activation and functionalization.

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6.  A High-Throughput Fluorescence Assay to Determine the Activity of Tryptophan Halogenases.

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7.  A Simple Combinatorial Codon Mutagenesis Method for Targeted Protein Engineering.

Authors:  Ketaki D Belsare; Mary C Andorfer; Frida S Cardenas; Julia R Chael; Hyun June Park; Jared C Lewis
Journal:  ACS Synth Biol       Date:  2017-01-04       Impact factor: 5.110

8.  Directed evolution of RebH for site-selective halogenation of large biologically active molecules.

Authors:  James T Payne; Catherine B Poor; Jared C Lewis
Journal:  Angew Chem Int Ed Engl       Date:  2015-02-09       Impact factor: 15.336

9.  Specific chlorination of isoquinolines by a fungal flavin-dependent halogenase.

Authors:  Jia Zeng; Anna K Lytle; David Gage; Sean J Johnson; Jixun Zhan
Journal:  Bioorg Med Chem Lett       Date:  2012-12-21       Impact factor: 2.823

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Authors:  Sarah A Shepherd; Chinnan Karthikeyan; Jonathan Latham; Anna-Winona Struck; Mark L Thompson; Binuraj R K Menon; Matthew Q Styles; Colin Levy; David Leys; Jason Micklefield
Journal:  Chem Sci       Date:  2015-04-10       Impact factor: 9.825
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2.  From Tryptophan to Toxin: Nature's Convergent Biosynthetic Strategy to Aetokthonotoxin.

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Review 3.  Understanding and Improving the Activity of Flavin-Dependent Halogenases via Random and Targeted Mutagenesis.

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Journal:  Annu Rev Biochem       Date:  2018-03-28       Impact factor: 23.643

4.  Flavin Adenine Dinucleotide-Dependent Halogenase XanH and Engineering of Multifunctional Fusion Halogenases.

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5.  Production of Tyrian purple indigoid dye from tryptophan in Escherichia coli.

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Journal:  Nat Chem Biol       Date:  2020-11-02       Impact factor: 15.040

Review 6.  Enzyme Fusions in Biocatalysis: Coupling Reactions by Pairing Enzymes.

Authors:  Friso S Aalbers; Marco W Fraaije
Journal:  Chembiochem       Date:  2018-10-02       Impact factor: 3.164

Review 7.  Design of fusion enzymes for biocatalytic applications in aqueous and non-aqueous media.

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Review 8.  Two-Component FAD-Dependent Monooxygenases: Current Knowledge and Biotechnological Opportunities.

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Journal:  Biology (Basel)       Date:  2018-08-02

Review 9.  Deploying Microbial Synthesis for Halogenating and Diversifying Medicinal Alkaloid Scaffolds.

Authors:  Samuel A Bradley; Jie Zhang; Michael K Jensen
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  9 in total

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