Asymmetric Epoxidation of Enones Promoted by Dinuclear Magnesium Catalyst

Jaszczewska-Adamczak, Joanna A.; Młynarski, Jacek

doi:10.1002/adsc.202100482

Cited by 4 publications

(2 citation statements)

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“…The yield was 1.67 g. GCMS: compound (3) 5.68 min, m/z 150 -21.8%; compound (6a) 7.33 min, m/z 166 -35.29%; compound (6b) 7.65 min, m/z 166 -43.53%. Similarly, (Experiment I) with the ratio 2-Iodo-thiophene (7). Synthesised according to the method of H.Y.…”

Section: Experiments Coursementioning

confidence: 99%

“…Epoxides can interact with enzymes, which leads to modification of their activity (6) . They can act as inhibitors or activators of enzymatic reactions, which will affect various biochemical processes, including metabolism, and establish covalent bonds with DNA and RNA nucleotides, which can lead to modification of genetic material and significantly affect the processes of replication, transcription and translation of genetic information (7) . From a chemical standpoint, epoxides are typical electrophiles that are capable of establishing open-ring products with the participation of nucleophiles (8) .…”

Section: Introductionmentioning

confidence: 99%

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Oxidation reactions of cyclopent-2-en-1-yl thiophene derivatives

Klimko,

Pisanenko,

Koshchii

et al. 2023

Innovaciencia

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Introduction: Thiophene derivatives are common in a large number of natural compounds. In addition, their biological activity provides great opportunities for synthetic organic chemistry. In particular, cyclopentenylthiophenes have high antimicrobial activity, can affect various inflammatory mechanisms, and can be effective in the treatment of cancer. However, in research, it is essential to first learn how to obtain compounds in pure form and to select such synthesis conditions that, when scaled up and introduced into widespread production, the affordability and safety of the processes would meet the needs of both consumers and pharmaceutical companies. Material and Methods: As an oxidant, meta-chloroperoxybenzoic acid was used, which allowed exploring its oxidative properties and advantages of use in more detail. Results and Discussion: In the course of this work, several cyclopentenylthiophene derivatives were synthesised, the ratio of isomers in the synthesis of these compounds was analysed, and the advantages and disadvantages of the synthesis methods were discussed. On the other hand, there are several issues that require additional research, including the effect of temperature conditions, electrophilicity of substituents and other factors on the course of the epoxidation reaction for cyclopentenylthiophenes. Conclusion: The research of thiophene derivatives is relevant both from the standpoint of exploring electronic effects when substituents with different acceptor properties are introduced into the heterocyclic aromatic system and from the standpoint of medicinal chemistry, as they are interesting biologically active objects with high chemical stability, good penetration of cell membranes, ability to affect enzyme activity, bind to receptors.

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Section: Experiments Coursementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Oxidation reactions of cyclopent-2-en-1-yl thiophene derivatives

Klimko,

Pisanenko,

Koshchii

et al. 2023

Innovaciencia

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Magnesium‐Catalyzed Asymmetric Thia‐Michael Addition to α,β‐Unsaturated Ketones

Jaszczewska‐Adamczak,

Baczewska,

Bujok

et al. 2024

Adv Synth Catal

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We demonstrate the application of chiral magnesium complexes in an asymmetric carbon‐sulfur bond‐forming reaction. Enantioselective and cost‐effective methodology under mild condition for the thia‐Michael addition, utilizing an in situ generated chiral dinuclear magnesium‐ProPhenol complex, has been developed. The versatility of this protocol is demonstrated with a broad range of thiol nucleophiles and a wide selection of enones. Enantioenriched β‐ketosulfides are obtained in good to excellent yields and moderate to excellent enantioselectivity. The presented catalytic system exhibits excellent tolerance for structurally different substrates while maintaining high enantioselectivity. This observation aligns with proposed mechanism, wherein the sulfur atom coordinates to the catalyst in close proximity to the reaction center.

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