Andrew McGrath scite author profile

High-throughput experimentation (HTE) is an increasingly important tool in reaction discovery. While the hardware for running HTE in the chemical laboratory has evolved significantly in recent years, there remains a need for software solutions to navigate data-rich experiments. Here we have developed phactor™, a software that facilitates the performance and analysis of HTE in a chemical laboratory. phactor™ allows experimentalists to rapidly design arrays of chemical reactions or direct-to-biology experiments in 24, 96, 384, or 1,536 wellplates. Users can access online reagent data, such as a chemical inventory, to virtually populate wells with experiments and produce instructions to perform the reaction array manually, or with the assistance of a liquid handling robot. After completion of the reaction array, analytical results can be uploaded for facile evaluation, and to guide the next series of experiments. All chemical data, metadata, and results are stored in machine-readable formats that are readily translatable to various software. We also demonstrate the use of phactor™ in the discovery of several chemistries, including the identification of a low micromolar inhibitor of the SARS-CoV-2 main protease. Furthermore, phactor™ has been made available for free academic use in 24- and 96-well formats via an online interface.

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Reinforcing the supply chain of umifenovir and other antiviral drugs with retrosynthetic software

Lin

Zhang

Mahjour

et al. 2021

Nat Commun

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The global disruption caused by the 2020 coronavirus pandemic stressed the supply chain of many products, including pharmaceuticals. Multiple drug repurposing studies for COVID-19 are now underway. If a winning therapeutic emerges, it is unlikely that the existing inventory of the medicine, or even the chemical raw materials needed to synthesize it, will be available in the quantities required. Here, we utilize retrosynthetic software to arrive at alternate chemical supply chains for the antiviral drug umifenovir, as well as eleven other antiviral and anti-inflammatory drugs. We have experimentally validated four routes to umifenovir and one route to bromhexine. In one route to umifenovir the software invokes conversion of six C–H bonds into C–C bonds or functional groups. The strategy we apply of excluding known starting materials from search results can be used to identify distinct starting materials, for instance to relieve stress on existing supply chains.

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Repurposing amine and carboxylic acid building blocks with an automatable esterification reaction

et al. 2023

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Rapid Planning and Analysis of High-Throughput Experiment Arrays for Reaction Discovery

Mahjour

Zhang

Shen

et al. 2022

Preprint

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High throughput experimentation (HTE) is an increasingly important tool in reaction discovery. While the hardware for running HTE in the chemical laboratory has evolved significantly in recent years, there remains a need for software solutions to navigate data-rich experiments. Here we have developed phactor™, a software that facilitates the performance and analysis of HTE in a chemical laboratory. phactor™ allows experimentalists to rapidly design arrays of chemical reactions or direct-to-biology experiments in 24, 96, 384, or 1,536 wellplates. Users can access online reagent data, such as a chemical inventory, to virtually populate wells with experiments and produce instructions to perform the reaction array manually, or with the assistance of a liquid handling robot. After completion of the reaction array, analytical results can be uploaded for facile evaluation, and to guide the next series of experiments. All chemical data, metadata, and results are stored in machine-readable formats that are readily translatable to various software formats. We also demonstrate the use of phactor™ in the discovery of several chemistries, including a light-enabled reagent-free sp2–sp2 deaminative–decarboxylative carbon–carbon coupling and a low micromolar inhibitor of the SARS-CoV-2 main protease. Furthermore, phactor™ has been made available for free academic use in 24 and 96 well formats via an online interface.

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Repurposing amine and carboxylic acid building blocks with an automatable esterification reaction

McGrath

Zhang

Shafiq

et al. 2022

Preprint

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New methodologies to unite amines and carboxylic acids that complement the popular amide coupling can significantly expand accessible chemical space because they yield products distinct from the classic R–NHC(O)–R’ amide arrangement. Here we have developed an amine–acid esterification reaction based on pyridinium salt activation of amine C–N bonds to create products of type R–OC(O)–R’ upon reaction with alkyl and aryl carboxylic acids. The protocol is robust and facile, as demonstrated by automation on open-source robotics.

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Andrew McGrath

Rapid planning and analysis of high-throughput experiment arrays for reaction discovery

Reinforcing the supply chain of umifenovir and other antiviral drugs with retrosynthetic software

Repurposing amine and carboxylic acid building blocks with an automatable esterification reaction

Rapid Planning and Analysis of High-Throughput Experiment Arrays for Reaction Discovery

Repurposing amine and carboxylic acid building blocks with an automatable esterification reaction

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