DL-2-aminoadipic acid-[2,5,5-d3], a deuterated compound extensively utilized in research and biochemical studies, holds a multitude of applications. Here are the key applications:
Metabolic Tracing Studies: Serving as a tracer in metabolic inquiries, DL-2-aminoadipic acid-[2,5,5-d3] illuminates the intricate pathways and fluxes of amino acid metabolism. By incorporating deuterium, researchers embark on a journey to track the molecule’s metamorphosis within metabolic processes, essential for unraveling complexities in metabolic disorders and optimizing metabolic engineering efforts.
Proteomics: In the realm of proteomic exploration, DL-2-aminoadipic acid-[2,5,5-d3] emerges as a pivotal internal standard for mass spectrometry analyses. Its stable isotopic labeling facilitates precise quantification of proteins and peptides within intricate biological samples, elevating the reliability and reproducibility of proteomic data. This precision is paramount for biomarker discovery and functional proteomics advancements.
Neurotransmitter Studies: Delving into neurotransmitter synthesis and regulation, DL-2-aminoadipic acid-[2,5,5-d3] plays a crucial role in unraveling the complexities of the glutamate pathway. Deuterated analogs aid in distinguishing between endogenous and exogenous sources, providing invaluable insights into neurotransmitter metabolism within neurological research. This depth of understanding paves the way for insights into neurodegenerative diseases and potential therapeutic breakthroughs.
Analytical Chemistry: Within the realm of analytical chemistry, DL-2-aminoadipic acid-[2,5,5-d3] stands as a cornerstone for method development and validation in quantitative assays. The presence of deuterium atoms elevates the sensitivity and specificity of mass spectrometric detection, crucial for establishing robust analytical protocols within the pharmaceutical and biochemical industries. This application plays a vital role in advancing analytical methodologies crucial for modern research and industry standards.
![DL-2-aminoadipic acid-[2,5,5-d3]](https://resource.bocsci.com/structure/dl-2-amino-1-6-hexanedioic-2-5-5-d3-acid.gif)
