These agents, Abacavir Sulfate, Abarelix, and Abiraterone Acetate, each possess distinct chemical structures leading to their varying pharmacological effects. Abacavir Sulfate, a nucleoside reverse transcriptase inhibitor, is readily detected via its molecular formula – C14H15N6O4·H2SO4 – and characteristic spectral properties observed in techniques such as mass spectrometry and infrared spectroscopy. Abarelix, a gonadotropin-releasing hormone (GnRH) receptor blocker, presents with a complex peptide sequence, typically requiring amino acid sequencing and peptide mapping for total identification. Finally, Abiraterone Acetate, a CYP17 inhibitor utilized in prostate malignancy treatment, can be verified through its particular mass and fragmentation patterns acquired through gas chromatography-mass spectrometry (GC-MS) alongside nuclear magnetic resonance (NMR) spectroscopic data, ensuring its accurate chemical characterization.
Directory: Abacavir Sulfate Sulfate (CAS 188062-50-2) & Associated Materials
Explore a extensive catalogue detailing Abacavir Sulfate Sulfate, identified by CAS number 188062-50-2, and a range of related compounds. We supply includes multiple levels to satisfy specific research and production requirements. Discover detailed information including experimental data and existing quantities options. Besides, investigate a selection of structurally similar materials that might be useful in the current project. The listing is structured to assist effective procurement of high-quality pharmaceutical ingredients.
Chemical Listing: Abarelis and Abirateron Acetate Chemical Abstract Service Numbers
For chemists and medicinal professionals needing precise chemical identification, correct CAS identifiers are crucial. Specifically, abarelix, a hormone-releasing hormone agonist used in addressing prostate cancer, is identified the CAS number 65572-21-8. Furthermore, abiraterone acetate, a key medication in advanced tumors, carries the Registry code 389292-17-3. Meticulous recording and verification of these Chemical Abstract Service identifiers are imperative to verify accurate molecule recognition and subsequent operations. Such numbers are widely obtainable through multiple scientific repositories. Frequently check recognized references for the most information.
Pharmaceutical Components: Abacavir Sodium , , Abiraterone Acetate, Registry Numbers
The recognition of critical pharmaceutical ingredients often relies on accurate chemical designations. Notably, this article quickly examines three notable instances: Abacavir Sodium, a drug reverse enzyme inhibitor; Abarelix, a hormone stimulator; and Abiraterone, utilized in malignant treatment. Every compound is associated with a unique Chemical Abstracts Service number, providing a standardized method for tracking data and verifying precise communication within the research field. Refer the respective databases for complete listings and associated data.
CAS Registry Number Database: Information for Abacavir Sulfate, Abarelix, Abiraterone Acetate
The comprehensive Chemical Abstracts Service (CAS) registry is an critical resource for scientists and pharmaceutical professionals alike. This piece briefly explores records pertaining to three key pharmaceutical compounds: Abacavir Sulfate Salt, a nucleoside reverse transcriptase inhibitor used to treat HIV; Abarelix Acetate, a gonadotropin-releasing hormone click here (GnRH) receptor antagonist used in therapy; and Abiraterone Acetate Salt, a powerful copyright biosynthesis inhibitor used in the treatment of metastatic prostate cancer. Accessing the specific CAS number for each compound allows for reliable identification and promotes correct scientific retrieval. These individual identifiers are indispensable for compound integrity and uniform documentation across the industry.
Employing Web API Substance Data: Compound Identification with CAS Registry Numbers
Accurate product recognition is critical in the chemical industry, and Web API substance data provides a consistent answer. Particularly, CAS Registry numbers act as unique labels for chemical entities, enabling easy consolidation with databases and platforms. This approach also enhances data accuracy but as well as streamlines procedures related to research, acquisition, and regulatory reporting. Additionally, obtaining this data via an Web API promotes optimization and reduces the potential for human mistake.