Stable isotope labeling allows researchers to study metabolic pathways in vivo in a safe manner.
Stable isotope-labeled compounds are used as environmental pollutant standards for the detection of air, water, soil, sediment and food.
In addition to treating various diseases, isotopes are used for imaging, diagnosis, and newborn screening.
Small molecule compounds labeled with stable isotopes can be used as chemical reference for chemical identification, qualitative, quantitative, detection, etc. Various types of NMR solvents can be used to study the structure, reaction mechanism and reaction kinetics of compounds.
Stable isotope labeling allows researchers to study metabolic pathways in vivo in a safe manner.
Stable isotope-labeled compounds are used as environmental pollutant standards for the detection of air, water, soil, sediment and food.
General Information |
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Catalog: BLP-004374 |
CAS: 1217474-55-9 |
Molecular Formula: [13C]5D9[15N]O4 |
Molecular Weight: 162.14 |
Chemical Structure |
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Description | L-Glutamic acid-[13C5,15N,d9] is a labelled L-Glutamic acid. Glutamic acid is a non-essential amino acid that acts as an excitatory neurotransmitter in the CNS. |
Synonyms | L-Glutamic acid-13C5,15N,d9; (S)-2-Aminopentanedioic acid-13C5,15N,d9; (S)-(+)-Glutamic-13C5,15N,d9 Acid; (S)-2-Aminopentanedioic-13C5,15N,d9 Acid; 1-Aminopropane-1,3-dicarboxylic-13C5,15N,d9 Acid; L-(+)-Glutamic-13C5,15N,d9 Acid; L-Glutamic Acid-13C5,15N,D9 |
IUPAC Name | dideuterio (4S)-2,2,3,3,4-pentadeuterio-4-(dideuterio(15N)amino)(1,2,3,4,5-13C5)pentanedioate |
Related CAS | 56-85-9 (unlabelled) |
Canonical SMILES | C(CC(=O)O)C(C(=O)O)N |
InChI | InChI=1S/C5H9NO4/c6-3(5(9)10)1-2-4(7)8/h3H,1-2,6H2,(H,7,8)(H,9,10)/t3-/m0/s1/i1+1D2,2+1D2,3+1D,4+1,5+1,6+1/hD4 |
InChI Key | WHUUTDBJXJRKMK-FPOKHKPFSA-N |
Melting Point | 205°C (dec.)(lit.) |
Purity | 95% by HPLC; 98% atom D, 99% atom 13C, 98% atom 15N |
L-Glutamic acid-[13C5,15N,d9], an amino acid enriched with isotopic labels, finds itself at the heart of various scientific inquiries. Here are key applications of L-Glutamic acid-[13C5,15N,d9], presented with heightened perplexity and burstiness:
Metabolic Tracing: In the intricate domain of metabolic flux analysis, this isotopically labeled glutamic acid emerges as a pivotal player. By tracing its assimilation into cellular metabolites, researchers embark on a journey into the labyrinthine pathways of metabolism and the mechanisms of energy generation. This meticulous approach not only illuminates the enigmatic realm of metabolic disorders but also acts as a catalyst for the inception of precisely targeted therapeutic interventions.
Protein Dynamics Studies: Delving deep into the dynamic realm of protein synthesis and degradation, L-Glutamic acid-[13C5,15N,d9] assumes the role of a potent investigative tool. By seamlessly integrating this labeled amino acid into proteins, scientists unlock the gate to dissecting protein turnover rates and dynamics with unparalleled precision. This trove of information holds the key to unraveling the intricate tapestry of protein homeostasis and deciphering the ripple effects of diseases on cellular functionalities.
Magnetic Resonance Imaging (MRI) Applications: As researchers navigate the intricate realms of NMR spectroscopy and MRI applications, the isotopic labels infused in L-Glutamic acid-[13C5,15N,d9] stand out as guiding lights of enhanced visibility. Leveraging this unique feature, scientists embark on a voyage to explore molecular interactions and structures within complex biological systems, pushing the boundaries of imaging technology to new horizons. This breakthrough fosters the development of cutting-edge imaging modalities tailored for the precise diagnosis and vigilant monitoring of diverse diseases.
Stable Isotope-Resolved Metabolomics: Within the vast expanse of metabolomics research, the inclusion of this labeled glutamic acid heralds a new era of quantification and analysis. By harnessing stable isotopes, researchers craft a landscape where metabolic intermediates are meticulously quantified and transformations in metabolite profiles under various conditions are scrutinized. This foundational information becomes the cornerstone for deciphering the intricate dance of nutrients within organisms, shedding light on metabolic perturbations that underpin the delicate balance between health and disease.
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