NINGBO INNO PHARMCHEM CO.,LTD. is a trusted source for specialized chemical compounds, enabling extensive research into their properties and reactions. Androsta-3,5-diene-7,17-dione (CAS 1420-49-1) is a compound that undergoes various chemical transformations, including esterification and conjugation, which are crucial for understanding its metabolic fate and potential applications.

The steroid nucleus of Androsta-3,5-diene-7,17-dione presents several reactive sites. While the ketone groups at C7 and C17 are key to its aromatase inhibitory function, other modifications can occur. For instance, derivatization at the C3 or C17 hydroxyl groups (if present in precursor or intermediate stages) through esterification can alter its solubility and pharmacokinetic properties. These reactions are fundamental aspects of steroid synthesis and modification.

Conjugation reactions, such as glucuronidation or sulfation, are vital metabolic pathways for many steroid compounds. These processes typically attach polar molecules to the steroid structure, facilitating its excretion from the body. While direct studies on the conjugation of Androsta-3,5-diene-7,17-dione may be limited, understanding these general principles is important for researchers studying biochemical pathways in steroid metabolism.

The compound’s activity as an aromatase inhibitor also places it within the scope of hormone regulation science. Modifications through esterification or other reactions can influence its potency and duration of action, making these chemical transformations subjects of interest for pharmaceutical development.

For researchers involved in analytical chemistry, particularly in fields like anti-doping, understanding these potential metabolic products and derivatives is essential for developing comprehensive detection methods. The ability to identify various forms of the compound contributes to robust analytical methods for steroid detection.

NINGBO INNO PHARMCHEM CO.,LTD. is committed to providing researchers with access to key chemical compounds like Androsta-3,5-diene-7,17-dione, along with detailed information on their chemical behavior. Our high-purity compounds support advancements in pharmaceutical research, biochemistry, and analytical science, enabling a deeper understanding of these complex molecules.