Gibberellin A24 is a plant growth hormone that plays a crucial role in controlling various plant physiological processes, including seed germination, stem elongation, and flowering. While it may not directly impact everyday life for the average person, Gibberellin A24 is of significant importance in the agricultural industry. Its use in crop production helps increase crop yield, improve plant quality, and enhance overall agricultural productivity. As such, Gibberellin A24 indirectly affects everyday life by contributing to the availability and quality of food for consumers worldwide.
Table of Contents:
Commercial Applications
Chemical & Physical Properties
Production & Procurement
Safety Considerations
Potential Research Directions
Related Compounds
Commercial Applications
Gibberellin A24, a plant hormone, finds numerous commercial and industrial applications due to its ability to promote growth and elongation in plants. Specifically, it is used in agriculture to increase fruit and vegetable size and yield. Additionally, it is utilized in the production of high-quality ornamental plants and cut flowers, contributing to the thriving horticultural industry.
In the realm of drug and medication applications, Gibberellin A24 plays a crucial role in the pharmaceutical industry. It is used in the synthesis of various drugs, including anti-inflammatory and anti-cancer medications. Its ability to regulate cell growth and differentiation makes it an invaluable component in the development of advanced pharmaceutical products for a wide range of medical conditions.
Overall, Gibberellin A24’s diverse applications extend beyond the agricultural sector to encompass key industries such as pharmaceuticals and horticulture. Its unique properties make it a versatile and indispensable tool in enhancing plant growth, as well as in the development of cutting-edge drugs and medications.
Chemical & Physical Properties
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Gibberellin A24 is a colorless and odorless crystalline compound. It typically appears as a fine powder or small crystals, with no distinct scent.
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Gibberellin A24 has a molar mass of approximately 346.47 g/mol and a density of 1.44 g/cm3. Compared to common food items, Gibberellin A24 has a higher molar mass and density, making it more compact and heavier per unit volume.
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The melting point of Gibberellin A24 is around 155-158°C, while its boiling point is approximately 360-380°C. In comparison to common food items, Gibberellin A24 has higher melting and boiling points, indicating its higher thermal stability.
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Gibberellin A24 is sparingly soluble in water, forming a clear, colorless solution. It exhibits low viscosity in solution. Compared to common food items, Gibberellin A24 has lower solubility in water and viscosity, making it less likely to dissolve and flow easily.
Production & Procurement
Gibberellin A24 is a plant hormone essential for various processes such as seed germination, stem elongation, and flowering. It is primarily produced through fermentation processes using fungi or bacteria as the production organism. These microorganisms are engineered to express specific biosynthetic pathways that lead to the synthesis of Gibberellin A24.
Once Gibberellin A24 is produced, it can be procured from specialized biotechnology companies or research institutions involved in hormone production. The purity and quality of the hormone are crucial for its efficacy in plant growth regulation. After procurement, Gibberellin A24 is often transported in sealed containers to maintain its stability and prevent contamination during transit.
The transportation of Gibberellin A24 is typically conducted under controlled conditions to ensure its integrity upon arrival at its destination. Temperature, humidity, and light exposure are carefully monitored to prevent degradation of the hormone during transportation. Strict protocols are often followed to comply with regulatory requirements for the handling and transport of bioactive substances like Gibberellin A24.
Safety Considerations
Safety considerations for Gibberellin A24 include the potential for skin and eye irritation upon contact. It is advised to wear appropriate personal protective equipment when handling this substance, such as gloves and safety goggles. In case of inhalation, move to a well-ventilated area and seek medical attention if symptoms persist.
Hazard statements for Gibberellin A24 include “Causes skin and eye irritation” and “May cause respiratory irritation.” These statements indicate the potential dangers associated with exposure to this substance. It is important to take proper precautions to minimize risks and protect oneself from harm.
Precautionary statements for Gibberellin A24 include “Wear protective gloves/eye protection/face protection” and “Use only outdoors or in a well-ventilated area.” These statements emphasize the importance of wearing appropriate personal protective equipment and ensuring proper ventilation when handling this substance. Following these precautions can help reduce the likelihood of adverse effects on health.
Potential Research Directions
One potential research direction for Gibberellin A24 is its role in plant growth and development. Studies could investigate the specific genes and regulatory pathways involved in mediating the effects of Gibberellin A24 on plant physiology.
Another avenue of research could explore the potential applications of Gibberellin A24 in agriculture. This could involve investigating its effects on crop yield, flowering time, fruit size, and overall crop productivity.
Furthermore, researchers could delve into the molecular mechanisms through which Gibberellin A24 interacts with other hormones in plants. Understanding these interactions could provide insights into how to manipulate plant growth and development for improved agricultural outcomes.
Related Compounds
One similar compound to Gibberellin A24 based upon molecular structure is Gibberellin A4. This compound shares a similar backbone structure with Gibberellin A24, differing only in the side chain attached at the C-13 position. The presence of a hydroxyl group at this position in Gibberellin A4 distinguishes it from Gibberellin A24.
Another compound that bears resemblance to Gibberellin A24 is Gibberellin A7. Like Gibberellin A24, Gibberellin A7 also features a similar backbone structure but varies in the side chain at the C-13 position. In Gibberellin A7, a hydroxyl group is present at the C-13 position, distinguishing it from Gibberellin A24.
Gibberellin A9 is yet another compound with a molecular structure closely related to Gibberellin A24. This compound shares the same backbone structure as Gibberellin A24 but differs in the side chain at the C-13 position. In Gibberellin A9, a hydroxyl group is present at the C-13 position, distinguishing it from Gibberellin A24.
