Flavonoids

Genkwanin is a flavonoid compound, which is a type of natural phenolic compound, often found in various plant sources, such as herbs like Daphne genkwa. This compound originates from plants known for their medicinal properties and is derived through the extraction and isolation of specific phytochemical constituents. The mode of action of Genkwanin involves modulating various cellular pathways, including antioxidant, anti-inflammatory, and enzyme inhibition activities. It exerts its effects by interacting with molecular targets within these pathways, leading to therapeutic benefits in biological systems. Genkwanin is studied for its potential applications in pharmacology and biochemistry due to its diverse biological activities. It is of particular interest in research focused on developing treatments for inflammation-related diseases, cancer, and metabolic disorders. The compound's ability to neutralize free radicals makes it a candidate for further exploration as an antioxidant. Its applications extend to the study of botanical extracts and their roles in traditional medicine, providing a biochemical basis for their historical use.

3-Hydroxy-6,3'-dimethoxyflavone is a naturally occurring flavone, which is a type of polyphenolic compound found in various plants. As a product of plant secondary metabolism, this flavone is often sourced from medicinal herbs and fruits, where it contributes to the plant's defense mechanisms. The mode of action of 3-Hydroxy-6,3'-dimethoxyflavone involves modulation of oxidative stress pathways and interaction with specific cellular signaling cascades. This compound exhibits potential antioxidant properties by scavenging free radicals and chelating metal ions, thereby reducing oxidative damage in cells. It also appears to have anti-inflammatory effects, possibly through the inhibition of key pro-inflammatory cytokines and enzymes. The uses and applications of 3-Hydroxy-6,3'-dimethoxyflavone are primarily in the research and development of nutraceuticals and pharmaceuticals targeting oxidative stress-related conditions and inflammatory diseases. Its biological activities make it a candidate for further investigation in the context of chronic diseases such as cardiovascular disorders, neurodegenerative diseases, and certain types of cancer.

Derrone-4'-methyl ether is a flavonoid derivative, which is a compound class known for diverse biological activities. This compound is sourced from the isoflavonoid family, predominantly found in legumes and other plant species. Isoflavonoids are secondary metabolites that play crucial roles in plant defense mechanisms and interactions with the environment. The mode of action of Derrone-4'-methyl ether involves modulating protein-protein interactions within cellular pathways. It may influence various signaling cascades by interacting with key enzymes or receptor sites, thus impacting cellular responses. This makes it of interest in studying signal transduction and potential therapeutic targets. Its uses and applications extend to research in pharmacology and biochemistry, particularly in understanding and manipulating cell signaling mechanisms. Scientists explore its utility in modeling protein functions and inhibitor designs, bridging a deeper comprehension of molecular interactions and potential applications in drug development.

Natural glycoside

Kaempferitrin analytical standard provided with w/w absolute assay, to be used for quantitative titration.

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3-Hydroxy-7,3',4',5'-tetramethoxyflavone is a specific type of polymethoxylated flavonoid, which is a bioactive compound extracted primarily from the plant Oroxylum indicum. This compound falls into a broader class of flavonoids, which are polyphenolic compounds known for a variety of biological activities. The source, Oroxylum indicum, is a tree widely used in traditional medicine, particularly in Ayurveda, for its rich concentration of phytochemicals. The mode of action of 3-Hydroxy-7,3',4',5'-tetramethoxyflavone involves modulation of various cellular pathways, primarily through its antioxidant properties, and potential interactions with enzymatic and signaling pathways within cells. Its ability to scavenge free radicals and reduce oxidative stress can contribute to its therapeutic effects. This flavonoid is being explored for a range of applications owing to its bioactive properties. Possible uses include its role as an anti-inflammatory agent and in cancer research for its potential to inhibit tumor growth. Moreover, its neuroprotective and cardioprotective effects are also under investigation. The scientific community continues to explore its utility in pharmacological formulations and as a standard in studying traditional remedies.

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Tectoridin is a naturally occurring isoflavone glycoside, which is derived from the rhizomes of the Iris plant, particularly from Iris tectorum. This compound acts as a bioactive isoflavone that can undergo enzymatic hydrolysis to release tectorigenin, the aglycone form. Tectoridin and its metabolites are investigated for their pharmacological properties, which include antioxidant, anti-inflammatory, and anti-cancer activities. The mode of action of tectoridin involves modulating various biochemical pathways that contribute to its potential therapeutic effects. It has been shown to inhibit oxidative stress markers and modulate the expression of multiple proteins involved in inflammation and cell proliferation. Tectoridin is primarily explored for its uses in the prevention and treatment of various diseases. Its anti-cancer properties are of particular interest, as it may inhibit tumor growth and induce apoptosis in certain cancer cell lines. Additionally, the compound is studied for its potential protective effects against liver damage and its ability to improve metabolic profiles, making it a candidate for managing conditions like liver diseases and metabolic disorders.

Podocarpus flavanone is a naturally occurring flavonoid derivative, which is sourced from the Podocarpus genus, a group of coniferous trees native to the Southern Hemisphere. The compound is characterized by its polyphenolic structure, contributing to its ability to engage in a range of biochemical interactions. Its mode of action primarily involves the inhibition of microbial growth through disruption of microbial cell membranes and interference with key enzymatic pathways necessary for cell survival. The compound's efficacy as an antimicrobial agent has been extensively documented, with applications spanning various fields. In the pharmaceutical sector, it serves as a promising lead compound for the development of novel antimicrobial therapies, offering potential solutions to combat antibiotic-resistant strains. Additionally, its antimicrobial properties make it an attractive candidate for incorporation in food preservation technologies, contributing to enhanced shelf life and safety of perishable products. In agricultural applications, Podocarpus flavanone is being explored for its role in plant protection and pathogen control, aiming to enhance crop yield and sustainability. Thus, its versatile applications underscore its significance within both scientific research and practical implementation realms.

Kaempferol-3-O-glucuronide analytical standard provided with w/w absolute assay, to be used for quantitative titration.

(2R)-5,7-Dimethoxyflavanone is a natural flavonoid, which is a type of polyphenolic compound. It is derived from various plant sources, commonly found in fruits, vegetables, and certain medicinal herbs. Its structure includes a flavanone backbone with methoxy groups at specific positions, which modulate its biological activity. This compound exerts its effects primarily through interactions with biological pathways that involve antioxidant activity, enzyme inhibition, and modulation of cellular signaling pathways. Due to its chemical properties, it can effectively scavenge free radicals, reducing oxidative stress within cells. (2R)-5,7-Dimethoxyflavanone is utilized in scientific investigations for its potential therapeutic applications. It is studied for its potential anti-inflammatory, antioxidant, and anticancer properties. Researchers explore its role in the prevention or management of chronic diseases like cardiovascular disorders and certain types of cancer. Furthermore, its effects on neuronal health are being investigated for applications in neurodegenerative disease studies. As research progresses, understanding its precise molecular interactions and pharmacokinetics will be crucial for leveraging its full potential in therapeutic contexts.