Rimsha Irfan scite author profile

Chalcones, members of the flavonoid family, display a plethora of interesting biological activities including but not limited to antioxidant, anticancer, antimicrobial, anti-inflammatory, and antiprotozoal activities. The literature cites the synthesis and activity of a range of natural, semisynthetic, and synthetic chalcones. The current review comprehensively covers the literature on amino-substituted chalcones and includes chalcones with amino-groups at various positions on the aromatic rings as well as those with amino-groups containing mono alkylation, dialkylation, alkenylation, acylation, and sulfonylation. The aminochalcones are categorized according to their structure, and the corresponding biological activities are discussed as well. Some compounds showed high potency against cancer cells, microbes, and malaria, whereas others did not. The purpose of this review is to serve as a one-stop location for information on the aminochalcones reported in the literature in recent years.

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Design of thiamine analogues for inhibition of thiamine diphosphate (ThDP)-dependent enzymes: Systematic investigation through Scaffold-Hopping and C2-Functionalisation

Chan

Irfan

et al. 2023

Bioorganic Chemistry

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Strategies on Designing Thiamine Analogues for Inhibition of Thiamine Diphosphate (ThDP)-dependent Enzymes: Systematic Investigation through Scaffold Switching and C2-Functionalisation

Chan

Irfan

et al. 2023

Preprint

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Thiamine diphosphate (ThDP), the bioactive form of vitamin B1, is an essential coenzyme needed for processes of cellular metabolism in all organisms. ThDP-dependent enzymes all require ThDP as a coenzyme for catalytic activity, although individual enzymes vary significantly in substrate preferences and biochemical reactions. A popular way to study the role of these enzymes through chemical inhibition is to use thiamine/ThDP analogues, which typically feature a neutral aromatic ring in place of the positive thiazolium ring of ThDP. While ThDP analogues have aided work in understanding the structural and mechanistic aspects of the enzyme family, at least two key questions regarding the ligand design strategy remain unresolved: 1) among the reported aromatic rings, which is the best? and 2) how can we achieve selectivity towards a given ThDP-dependent enzyme? In this work, we synthesise derivatives of these analogues covering all central aromatic rings used in the past decade and make a head-to-head comparison of all the compounds as inhibitors of several ThDP-dependent enzymes. Thus, we establish the relationship between the nature of the central ring and the inhibitory profile of these ThDP-competitive enzyme inhibitors. We also demonstrate that introducing a C2-substituent onto the central ring to explore the unique substrate-binding pocket can improve selectivity.

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Synthesis, photophysical, voltammetric, and DFT studies of 4-aminochalones

Baig¹,

Irfan²,

Rasool³

et al. 2023

Journal of Photochemistry and Photobiology A: Chemistry

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Strategies on Designing Thiamine Analogues for Inhibition of Thiamine Diphosphate (ThDP)-dependent Enzymes: Systematic Investigation through Scaffold Switching and C2-Functionalisation

Chan

Irfan

et al. 2023

Preprint

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show abstract

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Rimsha Irfan

A Comprehensive Review of Aminochalcones

Design of thiamine analogues for inhibition of thiamine diphosphate (ThDP)-dependent enzymes: Systematic investigation through Scaffold-Hopping and C2-Functionalisation

Strategies on Designing Thiamine Analogues for Inhibition of Thiamine Diphosphate (ThDP)-dependent Enzymes: Systematic Investigation through Scaffold Switching and C2-Functionalisation

Synthesis, photophysical, voltammetric, and DFT studies of 4-aminochalones

Strategies on Designing Thiamine Analogues for Inhibition of Thiamine Diphosphate (ThDP)-dependent Enzymes: Systematic Investigation through Scaffold Switching and C2-Functionalisation

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