Literature DB >> 30864270

Facile in Vitro Biocatalytic Production of Diverse Tryptamines.

Allwin D McDonald1, Lydia J Perkins1, Andrew R Buller1.   

Abstract

Tryptamines are a medicinally important class of small molecules that serve as precursors to more complex, clinically used indole alkaloid natural products. Typically, tryptamine analogues are prepared from indoles through multistep synthetic routes. In the natural world, the desirable tryptamine synthon is produced in a single step by l-tryptophan decarboxylases (TDCs). However, no TDCs are known to combine high activity and substrate promiscuity, which might enable a practical biocatalytic route to tryptamine analogues. We have now identified the TDC from Ruminococcus gnavus as the first highly active and promiscuous member of this enzyme family. RgnTDC performs up to 96 000 turnovers and readily accommodates tryptophan analogues with substituents at the 4, 5, 6, and 7 positions, as well as alternative heterocycles, thus enabling the facile biocatalytic synthesis of >20 tryptamine analogues. We demonstrate the utility of this enzyme in a two-step biocatalytic sequence with an engineered tryptophan synthase to afford an efficient, cost-effective route to tryptamines from commercially available indole starting materials.
© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  biocatalysis; decarboxylases; indole alkaloids; noncanonical amino acids; synthases; tryptophan

Mesh:

Substances:

Year:  2019        PMID: 30864270      PMCID: PMC6800669          DOI: 10.1002/cbic.201900069

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


  27 in total

1.  Synthesis of β-Branched Tryptophan Analogues Using an Engineered Subunit of Tryptophan Synthase.

Authors:  Michael Herger; Paul van Roye; David K Romney; Sabine Brinkmann-Chen; Andrew R Buller; Frances H Arnold
Journal:  J Am Chem Soc       Date:  2016-07-01       Impact factor: 15.419

2.  Reengineering a tryptophan halogenase to preferentially chlorinate a direct alkaloid precursor.

Authors:  Weslee S Glenn; Ezekiel Nims; Sarah E O'Connor
Journal:  J Am Chem Soc       Date:  2011-11-11       Impact factor: 15.419

3.  An Engineered Tryptophan Synthase Opens New Enzymatic Pathways to β-Methyltryptophan and Derivatives.

Authors:  Daniel Francis; Michael Winn; Jonathan Latham; Michael F Greaney; Jason Micklefield
Journal:  Chembiochem       Date:  2017-01-20       Impact factor: 3.164

4.  Role of Biocatalysis in Sustainable Chemistry.

Authors:  Roger A Sheldon; John M Woodley
Journal:  Chem Rev       Date:  2017-09-06       Impact factor: 60.622

5.  Tryptophan Synthase Uses an Atypical Mechanism To Achieve Substrate Specificity.

Authors:  Andrew R Buller; Paul van Roye; Javier Murciano-Calles; Frances H Arnold
Journal:  Biochemistry       Date:  2016-12-13       Impact factor: 3.162

6.  Mechanism-based inactivation of dopa decarboxylase by serotonin.

Authors:  M Bertoldi; P S Moore; B Maras; P Dominici; C B Voltattorni
Journal:  J Biol Chem       Date:  1996-09-27       Impact factor: 5.157

7.  A Panel of TrpB Biocatalysts Derived from Tryptophan Synthase through the Transfer of Mutations that Mimic Allosteric Activation.

Authors:  Javier Murciano-Calles; David K Romney; Sabine Brinkmann-Chen; Andrew R Buller; Frances H Arnold
Journal:  Angew Chem Int Ed Engl       Date:  2016-08-11       Impact factor: 15.336

8.  Directed Evolution Mimics Allosteric Activation by Stepwise Tuning of the Conformational Ensemble.

Authors:  Andrew R Buller; Paul van Roye; Jackson K B Cahn; Remkes A Scheele; Michael Herger; Frances H Arnold
Journal:  J Am Chem Soc       Date:  2018-05-17       Impact factor: 15.419

9.  Integrating carbon-halogen bond formation into medicinal plant metabolism.

Authors:  Weerawat Runguphan; Xudong Qu; Sarah E O'Connor
Journal:  Nature       Date:  2010-11-03       Impact factor: 49.962

10.  Sonogashira diversification of unprotected halotryptophans, halotryptophan containing tripeptides; and generation of a new to nature bromo-natural product and its diversification in water.

Authors:  M J Corr; S V Sharma; C Pubill-Ulldemolins; R T Bown; P Poirot; D R M Smith; C Cartmell; A Abou Fayad; R J M Goss
Journal:  Chem Sci       Date:  2016-11-11       Impact factor: 9.825
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  7 in total

1.  Biochemical characterization and synthetic application of aromatic L-amino acid decarboxylase from Bacillus atrophaeus.

Authors:  Yeri Choi; Sang-Woo Han; Jun-Sung Kim; Youngho Jang; Jong-Shik Shin
Journal:  Appl Microbiol Biotechnol       Date:  2021-03-13       Impact factor: 4.813

Review 2.  Aromatic L-amino acid decarboxylases: mechanistic features and microbial applications.

Authors:  Sang-Woo Han; Jong-Shik Shin
Journal:  Appl Microbiol Biotechnol       Date:  2022-06-28       Impact factor: 4.813

3.  Investigation of β-Substitution Activity of O-Acetylserine Sulfhydrolase from Citrullus vulgaris.

Authors:  Jamorious L Smith; Isa Madrigal Harrison; Craig A Bingman; Andrew R Buller
Journal:  Chembiochem       Date:  2022-06-01       Impact factor: 3.461

4.  Substrate multiplexed protein engineering facilitates promiscuous biocatalytic synthesis.

Authors:  Allwin D McDonald; Peyton M Higgins; Andrew R Buller
Journal:  Nat Commun       Date:  2022-09-06       Impact factor: 17.694

5.  Functional characterization of a catalytically promiscuous tryptophan decarboxylase from camptothecin-producing Camptotheca acuminata.

Authors:  Chong Qiao; Fei Chen; Zhan Liu; Tianfang Huang; Wei Li; Guolin Zhang; Yinggang Luo
Journal:  Front Plant Sci       Date:  2022-08-18       Impact factor: 6.627

Review 6.  Tryptophan Synthase: Biocatalyst Extraordinaire.

Authors:  Ella Watkins-Dulaney; Sabine Straathof; Frances Arnold
Journal:  Chembiochem       Date:  2020-09-22       Impact factor: 3.164

Review 7.  Deploying Microbial Synthesis for Halogenating and Diversifying Medicinal Alkaloid Scaffolds.

Authors:  Samuel A Bradley; Jie Zhang; Michael K Jensen
Journal:  Front Bioeng Biotechnol       Date:  2020-10-23
  7 in total

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