Discover the exceptional versatility of N-Fmoc-L-threonine (2-Tolyl-2-oxo-ethyl)ester, a premium biochemical reagent with a wide range of applications. This off-white to pale yellow solid boasts a molecular weight of 473.52g/mol and a melting point of 154-157°C, ensuring consistent performance in your laboratory. Crafted with precision, this compound serves as a crucial intermediate in the production of T Epitope and Threonyl, unlocking new possibilities for your research and development endeavors. Harness the power of this high-quality chemical, meticulously formulated to deliver reliable results, and elevate your work to new heights of excellence.
Introducing N-Fmoc-L-threonine (2-Tolyl-2-oxo-ethyl)ester, a versatile and highly specialized chemical compound that holds immense value for researchers and scientists across various fields. With its unique structural features and exceptional purity, this compound serves as a crucial intermediate in the production of T Epitope and Threonyl, making it an indispensable tool for advancing scientific discoveries.
At the heart of this compound lies a complex molecular structure, boasting a chemical formula of C28H27NO6 and a molecular weight of 473.52 g/mol. The intricate arrangement of carbon, hydrogen, nitrogen, and oxygen atoms, combined with the presence of a Fmoc (fluorenylmethyloxycarbonyl) group, a threonine moiety, and a 2-tolyl-2-oxo-ethyl ester, endows N-Fmoc-L-threonine (2-Tolyl-2-oxo-ethyl)ester with exceptional versatility and reactivity.
The versatility of N-Fmoc-L-threonine (2-Tolyl-2-oxo-ethyl)ester is truly remarkable, as it finds its applications in a wide range of scientific domains. As an intermediate in the production of T Epitope and Threonyl, this compound plays a crucial role in advancing research and development efforts in the fields of biochemistry, immunology, and pharmaceutical sciences.
The Fmoc group, a widely used protecting group in peptide synthesis, allows for the selective modification and manipulation of the threonine moiety, enabling researchers to incorporate this building block into complex peptide and protein structures. This, in turn, facilitates the synthesis of novel therapeutic agents, diagnostic tools, and other biomolecules with enhanced specificity and efficacy.
Moreover, the presence of the 2-tolyl-2-oxo-ethyl ester functionality introduces additional chemical reactivity, opening up avenues for further derivatization and the creation of novel compounds with tailored properties. This versatility makes N-Fmoc-L-threonine (2-Tolyl-2-oxo-ethyl)ester an invaluable asset in the fields of organic synthesis, material science, and beyond.