Parbir S. Grewal scite author profile

The tetrahydroisoquinoline (THIQ) moiety is a privileged substructure of many bioactive natural products and semi-synthetic analogs. Plants manufacture more than 3,000 THIQ alkaloids, including the opioids morphine and codeine. While microbial species have been engineered to synthesize a few compounds from the benzylisoquinoline alkaloid (BIA) family of THIQs, low product titers impede industrial viability and limit access to the full chemical space. Here we report a yeast THIQ platform by increasing production of the central BIA intermediate (S)-reticuline to 4.6 g L −1 , a 57,000-fold improvement over our first-generation strain. We show that gains in BIA output coincide with the formation of several substituted THIQs derived from amino acid catabolism. We use these insights to repurpose the Ehrlich pathway and synthesize an array of THIQ structures. This work provides a blueprint for building diverse alkaloid scaffolds and enables the targeted overproduction of thousands of THIQ products, including natural and semi-synthetic opioids.

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Bioproduction of a betalain color palette in Saccharomyces cerevisiae

Grewal

Modavi

Russ

et al. 2018

Metabolic Engineering

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Peroxisome compartmentalization of a toxic enzyme improves alkaloid production

et al. 2020

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Can cities become self-reliant in energy? A technological scenario analysis for Cleveland, Ohio

Grewal

2013

Cities

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Screening Methods to Identify Indole Derivatives That Protect against Reactive Oxygen Species Induced Tryptophan Oxidation in Proteins

et al. 2014

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Oxidative damage to proteins is one of the most prominent chemical degradation pathways that are of concern for drug product development in the biotechnology industry. Especially susceptible to oxidation are the Met and Trp residues in proteins. While L-Met and L-Trp have been shown to act as antioxidants typically protecting proteins against Met and Trp oxidation, respectively, l-Trp has been shown to be particularly sensitive to light, thereby producing various reactive oxygen species (ROS), including H2O2. There is hence a need to identify nonphotosensitive molecules that can protect Trp oxidation in proteins so that they can be easily handled under drug product manufacturing conditions. A combination of screening methods, namely, cyclic voltammetry (CV) and hydrogen peroxide generation upon photoirradiation, was used to screen several molecules to identify compounds that can act as antioxidants. Specifically, indole and tryptophan with hydroxy groups on the six-membered aromatic ring were found to have lower oxidation potentials than the parent compounds and produced the least amount of H2O2 upon light exposure. These derivatives were also found to sufficiently protect tryptophan oxidation in mAb1 against a variety of reactive oxygen species such as alkyl peroxides, hydroxyl radicals, and singlet oxygen and may be useful as part of the formulation toolkit to protect against protein degradation via oxidation.

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Parbir S. Grewal

A yeast platform for high-level synthesis of tetrahydroisoquinoline alkaloids

Bioproduction of a betalain color palette in Saccharomyces cerevisiae

Peroxisome compartmentalization of a toxic enzyme improves alkaloid production

Can cities become self-reliant in energy? A technological scenario analysis for Cleveland, Ohio

Screening Methods to Identify Indole Derivatives That Protect against Reactive Oxygen Species Induced Tryptophan Oxidation in Proteins

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