The intricate world of pharmaceutical chemistry relies on precisely engineered molecules to form the backbone of modern medicines. Among these crucial compounds is tert-butyl 2-(((1-(2-aminothiazol-4-yl)-2-(benzo[d]thiazol-2-ylthio)-2-oxoethylidene)amino)oxy)-2-methylpropanoate, identified by CAS number 89604-92-2. This advanced intermediate is indispensable in the synthesis of important antibiotics like Ceftazidime, making its chemical characteristics and production processes of significant interest to R&D scientists and procurement professionals.

The molecular structure of this intermediate is complex, featuring a 2-aminothiazole ring, a benzothiazole moiety, and a tert-butoxycarbonyl (BOC) protected isopropoxyiminoacetate group. This sophisticated arrangement is critical for its reactivity in the later stages of antibiotic synthesis. The presence of multiple heteroatoms (nitrogen, oxygen, sulfur) contributes to its unique chemical behavior and solubility profile. Typically appearing as a pale yellow solid, its physical state and purity (≥98.0%) are key indicators for quality control in pharmaceutical manufacturing.

The synthesis of this intermediate often involves multi-step chemical reactions, starting from precursors like 2,2'-dithiobis(benzothiazole) and a derivative of thiazolacetic acid. Manufacturers employ specific reaction conditions, including controlled temperatures and reagent additions, to achieve high yields and purity. Understanding the synthetic route can provide insights into potential impurities and the overall cost-effectiveness of production, a critical consideration for buyers seeking competitive pricing.

The pharmaceutical application of this compound is primarily as an advanced intermediate for Ceftazidime, a broad-spectrum cephalosporin antibiotic. Its structure directly contributes the essential 2-aminothiazole ring and the correctly configured oxime side chain, which are fundamental for the antibiotic's interaction with bacterial targets. Its role in the synthesis of Aztreonam further highlights its versatility in creating different classes of antibiotics.

For those looking to buy or source this intermediate, engaging with experienced manufacturers and suppliers is vital. They can provide comprehensive technical data, including detailed specifications and safety information. The accessibility of this crucial building block from reputable manufacturers, especially in regions like China, ensures the continuity of pharmaceutical supply chains and the ongoing availability of essential medicines worldwide. The chemical precision of this intermediate directly translates to the efficacy of the drugs it helps create.