Isoformononetin is a naturally occurring compound found in certain plants, particularly legumes such as red clover and soybeans. Research suggests that Isoformononetin may possess various health benefits, including potential anticancer and anti-inflammatory properties. While more studies are needed to fully understand the effects of Isoformononetin on human health, its relevance lies in its potential to contribute to the development of new pharmaceuticals or nutraceuticals aimed at improving overall well-being and quality of life.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
Isoformononetin, a type of isoflavone found in several plant sources, has various commercial and industrial applications. Due to its antioxidant properties, it is often used in skincare and cosmetic products to help protect the skin from environmental stressors and aging. Additionally, Isoformononetin is utilized in the food industry for its potential health benefits, such as reducing inflammation and promoting cardiovascular health.
In terms of drug and medication applications, Isoformononetin has shown promise in research for its potential therapeutic effects. Studies have indicated that it may have anti-cancer properties and could be used in the development of cancer treatment medications. Furthermore, Isoformononetin has been studied for its potential role in managing symptoms of menopause and improving bone health in postmenopausal women.
Overall, Isoformononetin’s versatility in both commercial and industrial applications, as well as its potential therapeutic benefits, make it a compound of interest in various fields of research and development. Its antioxidant properties and potential health benefits make it a valuable ingredient in skincare, cosmetics, food products, and potentially in the development of new medications for various health conditions.
⚗️ Chemical & Physical Properties
Isoformononetin is a crystalline compound that appears as colorless or slightly yellow in appearance. It does not possess a distinctive odor.
The molar mass of Isoformononetin is approximately 284.03 g/mol, while its density is around 1.19 g/mL. Compared to common food items like sugar (molar mass of 342.3 g/mol) and vegetable oil (density of 0.92 g/mL), Isoformononetin falls within a similar range in terms of molar mass and density.
Isoformononetin has a melting point of approximately 346-348 degrees Celsius and a boiling point of around 747 degrees Celsius. These values are significantly higher than those of common food items like butter (melting point of around 32 degrees Celsius) and water (boiling point of 100 degrees Celsius).
Isoformononetin is sparingly soluble in water and exhibits a moderate viscosity. When compared to common food items like salt (high solubility in water) and honey (high viscosity), Isoformononetin shows a lower solubility in water and viscosity.
🏭 Production & Procurement
Isoformononetin is a natural compound predominantly found in leguminous plants such as red clover. The production of Isoformononetin involves extraction and purification processes from these plant sources. The compound can also be synthesized in a laboratory setting through chemical reactions involving specific precursors.
Isoformononetin can be procured from specialized suppliers that offer natural extracts of leguminous plants like red clover. These suppliers often provide Isoformononetin in various forms, such as powders or solutions, depending on the intended application. When procuring Isoformononetin, attention must be paid to ensure the purity and quality of the compound for research or industrial use.
Transportation of Isoformononetin typically involves packaging the compound securely to prevent contamination or degradation during transit. Depending on the supplier, Isoformononetin may be transported via standard ground shipping methods or specialized services for sensitive chemical compounds. Proper labeling and documentation are essential to comply with regulatory requirements for the transport of Isoformononetin.
⚠️ Safety Considerations
Safety considerations for Isoformononetin should be taken into account due to its potential harmful effects if not handled properly. Isoformononetin is a chemical compound that can cause skin and eye irritation upon contact. It is important to wear appropriate personal protective equipment, such as gloves and safety goggles, when handling Isoformononetin to prevent any adverse effects. Proper ventilation should also be ensured when working with Isoformononetin to avoid inhalation of fumes or vapors.
Hazard statements for Isoformononetin include phrases such as “Causes skin irritation” and “Causes serious eye irritation.” These statements indicate the potential risks associated with exposure to Isoformononetin and emphasize the importance of taking necessary precautions to prevent harm. It is essential to be aware of these hazard statements when working with Isoformononetin to minimize the likelihood of adverse effects on health.
Precautionary statements for Isoformononetin include recommendations such as “Wear protective gloves/eye protection” and “Use only outdoors or in a well-ventilated area.” These statements provide guidance on how to safely handle Isoformononetin to reduce the risk of exposure and minimize potential harm. It is crucial to follow these precautionary statements when working with Isoformononetin to ensure the safety of individuals handling the compound.
🔬 Potential Research Directions
Potential research directions of Isoformononetin include investigating its mechanism of action on specific biological pathways, such as estrogen receptor signaling or cytokine production. Studies could also be conducted to examine the potential anti-inflammatory or anti-cancer properties of Isoformononetin, as well as its effects on cellular proliferation and apoptosis.
Furthermore, research may explore the pharmacokinetics and bioavailability of Isoformononetin, including its metabolism and distribution in various tissues. Moreover, studies could investigate the potential synergistic effects of Isoformononetin with other compounds or drugs, enhancing its therapeutic efficacy and minimizing potential side effects.
Additionally, future research could focus on the development of novel drug delivery systems for Isoformononetin to improve its solubility, stability, and targeted delivery to specific tissues or organs. Furthermore, investigations into the safety profile of Isoformononetin, including its potential interactions with other drugs or herbs, could provide valuable insights for clinical applications.
🧪 Related Compounds
One similar compound to Isoformononetin based upon molecular structure is Ononin. Also known as formononetin 7-O-glucoside, Ononin is a type of isoflavone glycoside found in various legumes such as red clover. It has a similar structure to Isoformononetin, with a glucose molecule attached to formononetin.
Another similar compound to Isoformononetin is Biochanin A. This compound is an O-methylated isoflavone found in red clover, chickpeas, and peanuts. Biochanin A has a structure similar to Isoformononetin, containing a chromane ring fused to a benzene ring with a hydroxyl group in the 5 position.
Daidzein is another similar compound to Isoformononetin that belongs to the isoflavone class of phytoestrogens. It is commonly found in soy products and legumes such as chickpeas and lentils. Daidzein has a similar molecular structure to Isoformononetin, with a chromane ring fused to a benzene ring and a hydroxyl group in the 7 position.