Naturally Occurring O-Heterocycles as Anticancer Agents

Avula, Satya Kumar; Das, Biswanath; Csük, René; Al‐Harrasi, Ahmed

doi:10.2174/1871520621666211108091444

ACAMC

2022

DOI: 10.2174/1871520621666211108091444

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Naturally Occurring O-Heterocycles as Anticancer Agents

Satya Kumar Avula

Biswanath Das

René Csük

et al.

Abstract: : Cancer is a leading cause of death worldwide. Proper efficient drugs are required to treat this deadly disease. Natural products have long been a vital source of anticancer agents and they have generated various “lead compounds” suitable for drug developments. With the recent advancement of chemical synthesis and bioevaluation techniques these lead compounds of natural origins have been utilized for production of useful anticancer drugs. Among the naturally occurring bioactive compounds various O-heterocycle… Show more

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Cited by 6 publications

References 119 publications

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α-Pyrones: Natural Occurrence, Chemistry, and Biological Approaches—An Update

Azizian,

Gheshlaghi,

Danesh

et al. 2024

Rev. Bras. Farmacogn.

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α-Pyrones: Natural Occurrence, Chemistry, and Biological Approaches—An Update

Azizian,

Gheshlaghi,

Danesh

et al. 2024

Rev. Bras. Farmacogn.

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Recent Advances in Solvent-free Organic Transformation via Iron-doped Nanocatalyst

Gaikwad,

Manjul

et al. 2024

COC

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This article highlights current developments in iron-doped nanocatalyst-based solvent-free organic reactions. These catalysts have the potential to speed up processes under safe environmental settings and eliminate the need for hazardous organic solvents. Its application in a variety of fields is mostly due to its superparamagnetic nano diameters, which are affordable, easily separable, reusable, and eco-friendly. Thus, the present review article focuses on the compendious account of various doped iron nanocatalysts reported catalyzing organic transformation, including synthesis of bioactive compounds, condensation, multicomponent, annulation, esterification, coupling, alkylation, acylation reactions. The development of innovative, highly active, and reusable magnetic iron nanocomposite catalysts is crucial for the future of catalysis as it will pave the way for the creation of environmentally friendly and sustainable technology. The review will provide valuable insights for researchers who are designing new functionalized doped iron catalysts or utilizing these catalysts for various organic transformations that promote sustainable development. The development of new precursors and synthesis techniques, as well as recent improvements in the synthesis of these catalysts, are described. The article also emphasizes the significance of comprehending the underlying processes of these catalytic events, as well as the difficulties and possibilities for further study in this field. The potential of iron-doped nanocatalysts as an environmentally friendly and long-lasting method of organic synthesis is emphasized throughout this review.

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Role of the Heterocycles to Design Anti-Cancer Agents

Banerjee

2022

ACAMC

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Naturally Occurring O-Heterocycles as Anticancer Agents

Cited by 6 publications

References 119 publications

α-Pyrones: Natural Occurrence, Chemistry, and Biological Approaches—An Update

α-Pyrones: Natural Occurrence, Chemistry, and Biological Approaches—An Update

Recent Advances in Solvent-free Organic Transformation via Iron-doped Nanocatalyst

Role of the Heterocycles to Design Anti-Cancer Agents

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