Abacavir Sulfate: Chemical Identification and Properties
Abacavir sulfate is a potent antiretroviral drug commonly utilized in the treatment of HIV infection. Chemically, it comprises the compound abacavir, which exists as a nucleoside reverse transcriptase inhibitor (NRTI). Abacavir sulfate possesses a molecular formula of C15H24N6O3S. The compound typically shows up as a white to off-white crystalline powder, defined by its solubility in water and limited solubility in organic solvents.
Additionally, abacavir sulfate exhibits a low melting point and experiences minimal decomposition at room temperature. Its physicochemical properties affect its effectiveness as an antiretroviral agent by enabling absorption, distribution, metabolism, and excretion within the body.
About Abarelix: CAS Number and Structural Details
Abarelix is an gonadotropin-releasing hormone receptor antagonist used for controlling advanced prostate cancer. Its chemical structure, characterized by a complex arrangement of atoms, contributes a crucial role in its therapeutic effects. The CAS Number, a unique identifier, for Abarelix is 124630-58-4. This code allows for unambiguous identification of the compound in scientific literature and databases.
- The Structure of, Abarelix comprises several rings and functional groups.
- The precise design of these components influences its binding affinity to the target receptor.
Further information about Abarelix's structure and CAS number can be found from read more reliable sources such as PubChem, ChemSpider, and scientific journals.
Exploring Abiraterone Acetate's Chemical Structure
Abiraterone acetate is a synthetic compound with the chemical formula C29H38O6. It/This/That belongs to a class of drugs known as androgen synthesis inhibitors, which are primarily used in the treatment of prostate cancer. The/Its/This molecule exhibits a complex structure, featuring a steroid nucleus with several functional groups attached. One/Several/Key of these functional groups is a carboxyl group, responsible for its/the/that ability to inhibit the enzyme 17α-hydroxylase/C17,20 lyase. This/That/It enzymatic inhibition blocks the production of androgens, hormones/chemicals/substances that fuel the growth of prostate cancer cells.
- Amongst/Within/Throughout the various functional groups present in abiraterone acetate are a ketone group, an ether linkage, and two hydroxyl groups.
- These/This/That groups contribute to the molecule's overall polarity and its/their/these interactions with target enzymes.
The chemical structure of abiraterone acetate allows it to effectively bind to the active site of 17α-hydroxylase/C17,20 lyase, effectively/efficiently/successfully blocking the conversion of cholesterol into androgens. This mechanism of action makes it a valuable therapeutic agent in the management of prostate cancer.
Information on: Abacavir Sulfate
This entry contains detailed details about Abacavir Sulfate, a substance with the CAS number 188062-50-2. Key information includes its physical properties, chemical structure, and purposes. Abacavir Sulfate is a fine substance often used in the therapy of HIV infection.
Identifying Abarelix Through Its CAS Number (183552-38-7)
Abarelix represents a pharmaceutical compound employed in the management of certain categories of prostatetumors. Its specific CAS number, 183552-38-7, operates as a specific identifier. This designation enables precise recognition of Abarelix within scientific and pharmaceutical databases. Professionals can leverage this CAS number to access valuable data about Abarelix, including its chemical structure, properties, and potential applications.
Abiraterone Acetate CAS: 154229-18-2 - Chemical Specification
These chemical specification outlines the features of abiraterone acetate, a pharmaceutical compound with CAS number 154229-18-2. It provides detailed details on its molecular properties, including melting point.
Abiraterone acetate is a potent inhibitor of enzyme activity, chiefly used in the therapy of prostate cancer. Its molecular formula includes a unique arrangement of atoms, determining its biological activity and clinical effects.
Furthermore, this specification explores the shelf life of abiraterone acetate under various circumstances.
The provided data is intended for scientists working with this molecule and requires interpretation within the context of relevant medical practices.