N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine CAS: 82834-12-6
Catalog Number | XD93403 |
Product Name | N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine |
CAS | 82834-12-6 |
Molecular Formula | C10H19NO4 |
Molecular Weight | 217.26 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine is a compound with potential applications in the field of pharmaceuticals and biochemistry. Its structural features make it an interesting molecule for various uses.This compound consists of a butyl group attached to the alpha carbon of alanine, an essential amino acid. The presence of the carbethoxy group at the N-terminus adds a ester functionality to the molecule. This combination of structural elements provides opportunities for biological and chemical modifications.One potential application of N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine is in the development of new drugs or therapeutic agents. The alanine component makes it a potential building block in the synthesis of peptide-based drugs. Peptides have gained significant attention in the pharmaceutical industry due to their biological activity and target specificity. N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine can serve as a starting point for the synthesis of peptide analogs with enhanced pharmacological properties.Furthermore, the presence of the carbethoxy group in the molecule allows for enzymatic or chemical hydrolysis, which can release the alanine moiety in the body. Alanine is involved in various metabolic pathways, including protein synthesis, glucose production, and energy metabolism. Therefore, N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine derivatives could be explored as prodrugs that can selectively release alanine, potentially impacting metabolic processes in the body.Additionally, this compound may have applications in the field of biochemistry and enzymology. The introduction of the butyl group to the alanine side chain creates a steric effect that could potentially influence enzyme-substrate interactions or protein-protein interactions. This may be valuable in studying enzyme kinetics, protein folding, and protein-protein interactions in biological systems.The versatility of N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine makes it an intriguing molecule with potential for further exploration and development in pharmaceutical and biochemical research. Its structural features offer opportunities for medicinal chemistry, enzyme studies, and metabolic research. By leveraging its chemical properties and exploring its interactions with biological systems, researchers can uncover new applications and potential benefits of this compound in various fields of study.In conclusion, N-[(S)-1-Carbethoxy-1-butyl]-(S)-alanine is a compound that holds promise for pharmaceutical, biochemistry, and enzymology research. Its unique structure and potential biological activities open up possibilities for the development of peptide-based drugs, prodrugs, and the investigation of enzyme kinetics and protein interactions. Further exploration and study of this compound have the potential to uncover novel applications and contribute to scientific advancements in these fields.