An Engineered Cytidine Deaminase for Biocatalytic Production of a Key Intermediate of the Covid-19 Antiviral Molnupiravir

Burke, Ashleigh J.; Birmingham, William R.; Zhuo, Ying; Thorpe, Thomas; Costa, Bruna Zucoloto da; Crawshaw, Rebecca; Rowles, Ian; Finnigan, James; Young, Carl; Holgate, Gregory M; Muldowney, Mark P.; Charnock, Simon J.; Lovelock, Sarah L.; Turner, Nicholas J.; Green, Anthony P.

doi:10.1021/jacs.1c11048

Cited by 30 publications

(40 citation statements)

References 21 publications

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“…Additionally, the relative added N protein concentration in human saliva was calibrated by enzyme-linked immunosorbent assay using the commercial ELISA standard curve. The N protein concentrations were chosen to cover the range suggested by the ELISA kit (5,10,20,50,100, and 200 pg mL −1 , respectively). A linear relationship between optical density at 450 nm and standard N protein concentration was conducted using the kit by weighted least-squares regression analysis (R 2 = 0.999) and the saliva used was diluted 10-fold beyond the requirements for ELISA.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

A Rapid SARS-CoV-2 Nucleocapsid Protein Profiling Assay with High Sensitivity Comparable to Nucleic Acid Detection

et al. 2022

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Existing nucleic acid and antigen profiling methods for COVID-19 diagnosis fail to simultaneously meet the demands in sensitivity and detection speed, hampering them from being a comprehensive way for epidemic prevention and control. Thus, effective screening of COVID-19 requires a simple, fast, and sensitive method. Here, we report a rapid assay for ultrasensitive and highly specific profiling of COVID-19 associated antigen. The assay is based on a binding-induced DNA assembly on a nanoparticle scaffold that acts by fluorescence translation. By binding two aptamers to a target protein, the protein brings the DNA regions into close proximity, forming closed-loop conformation and resulting in the formation of the fluorescence translator. Using this assay, saliva nucleocapsid protein (N protein) has been profiled quantitatively by converting the N protein molecule information into a fluorescence signal. The fluorescence intensity is enhanced with increasing N protein concentration caused by the metal enhanced fluorescence using a simple, specific, and fast profiling assay within 3 min. On this basis, the assay enables a high recognition ratio and a limit of detection down to 150 fg mL −1 . It is 1−2 orders of magnitude lower than existing commercial antigen ELISA kits, which is comparative to or superior than the PCR based nucleic acid testing. Owing to its rapidity, ultrasensitivity, as well as easy operation, it holds great promise as a tool for screening of COVID-19 and other epidemics such as monkey pox.

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Section: ■ Results and Discussionmentioning

confidence: 99%

A Rapid SARS-CoV-2 Nucleocapsid Protein Profiling Assay with High Sensitivity Comparable to Nucleic Acid Detection

et al. 2022

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“…Recently, Burke et co-workers (Manchester University) have paved the way for a total greener synthesis of Molnupiravir by replacing the chemical hydroxyamination with a simple enzyme-mediated transformation of 3 to 5, catalyzed by an evolved E. coli cytidine deaminase (EcCD*, EC 3.5.4.5) (Scheme 4). [16] This work started from the hypothesis that EcCD could use hydroxylamine as the nucleophile for the deamination reaction instead of water (Scheme 4, route 4). Unfortunately, as expected, 5 was further hydrolyzed and converted to 2 by EcCD.…”

Section: Enzymatic Synthesis Of Molnupiravirmentioning

confidence: 99%

“…The natural diversity represents a wealthy source of extremophilic biocatalysts, which can be mined using metagenomics. [13,19,25] Alternatively, when a starting candidate enzyme is available, protein engineering, [13,16,20] or enzyme immobilization [26] is usually required for tailoring the activity or stability of the abovementioned enzymes. Based on previous findings of the required enzymes, the first goal seems achievable.…”

Section: Outlook and Future Perspectivesmentioning

confidence: 99%

Enzyme‐mediated synthesis of Molnupiravir: paving the way for the application of biocatalysis in pharmaceutical industry

et al. 2022

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Molnupiravir (Lagevrio®) is an orally-administered anti-COVID-19 agent. Due to the urgency to meet the worldwide demand and the growing environmental concern, there is a need for speed in the industrial implementation of novel and efficient bioprocesses for Molnupiravir synthesis. This concept paper aims to review the most relevant milestones that have guided impor-tant developments in the enzyme-mediated synthesis of Molnupiravir, including detailed comments on the advantages and drawbacks of the different synthetic routes. Finally, based on a personal perspective, new greener processes for Molnupiravir manufacturing are proposed and discussed.

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“…In an alternative approach towards the same nucleoside analogue, the groups of Lovelock, Turner and Green employed an engineered cytidine deaminase for the installation of the N-hydroxyl group in cytidine by relying on the promiscuous activity of the enzyme with hydroxylamine. 36 In addition to these examples, our group recently demonstrated the diversification of nucleoside analogues bearing alkylated sugar moieties through the use of hyperthermostable nucleoside phosphorylases. 37 The inherent thermodynamic constrains in such phosphorolysis systems could either be manipulated by reaction engineering or selective product removal through strategies such as in situ formation of borate esters.…”

Section: Cascade Synthesismentioning

confidence: 99%

Strategic Enzymatic Transformations in Modern Natural Product Synthesis

Kaspar

Schallmey

2022

Preprint

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Enzymes continue to gain recognition as valuable tools in synthetic chemistry as they enable transformations, which elude conventional organochemical approaches. As such, the progressing expansion of the biocatalytic arsenal has introduced unprecedented opportunities for new synthetic strategies and retrosynthetic disconnections. As a result, enzymes have found a solid foothold in modern natural product synthesis for applications ranging from the generation of early chiral synthons to endgame transformations, convergent synthesis and cascade reactions for the rapid construction of molecular complexity. As a primer to the state-of-the-art concerning strategic uses of enzymes in natural product synthesis and the underlying concepts, this review highlights selected recent literature examples (covering 2020 to April 2022), which make a strong case for the admission of enzymatic methodologies into the standard repertoire for complex small molecule synthesis.

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An Engineered Cytidine Deaminase for Biocatalytic Production of a Key Intermediate of the Covid-19 Antiviral Molnupiravir

Cited by 30 publications

References 21 publications

A Rapid SARS-CoV-2 Nucleocapsid Protein Profiling Assay with High Sensitivity Comparable to Nucleic Acid Detection

A Rapid SARS-CoV-2 Nucleocapsid Protein Profiling Assay with High Sensitivity Comparable to Nucleic Acid Detection

Enzyme‐mediated synthesis of Molnupiravir: paving the way for the application of biocatalysis in pharmaceutical industry

Strategic Enzymatic Transformations in Modern Natural Product Synthesis

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