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-011025 |
CAS: 1718-53-2 |
Molecular Formula: C18D12 |
Molecular Weight: 240.36 |
Chemical Structure |
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Synonyms | 1,2-Benzanthracene-d12; Tetraphene-d12; Benz[a]anthracene-d12 |
IUPAC Name | 1,2,3,4,5,6,7,8,9,10,11,12-dodecadeuteriobenzo[a]anthracene |
Related CAS | 56-55-3 (unlabelled) |
Isomeric SMILES | [2H]C1=C(C(=C2C(=C1[2H])C(=C(C3=C(C4=C(C(=C(C(=C4C(=C32)[2H])[2H])[2H])[2H])[2H])[2H])[2H])[2H])[2H])[2H] |
Canonical SMILES | C1=CC=C2C(=C1)C=CC3=CC4=CC=CC=C4C=C32 |
InChI | InChI=1S/C18H12/c1-2-7-15-12-18-16(11-14(15)6-1)10-9-13-5-3-4-8-17(13)18/h1-12H/i1D,2D,3D,4D,5D,6D,7D,8D,9D,10D,11D,12D |
InChI Key | DXBHBZVCASKNBY-AQZSQYOVSA-N |
Melting Point | 157-159°C (lit.) |
Purity | 99% by CP; 98% atom D |
Storage | Store at -20°C |
Benz[a]anthracene-[d12], a deuterium-labeled polycyclic aromatic hydrocarbon, stands as a valuable asset in both environmental and biochemical research. Explore key applications of Benz[a]anthracene-[d12] with a twist of high perplexity and burstiness:
Environmental Monitoring: Positioned as the gold standard in scrutinizing polycyclic aromatic hydrocarbons (PAHs) within the environment, Benz[a]anthracene-[d12] emerges as a potent tool. Utilized as a trailblazing tracer, it aids in evaluating the distribution of PAHs in soil, air, and water samples. This vigilant monitoring not only shapes pollution control strategies, but also sheds light on the ecological repercussions of PAHs, fostering a profound comprehension of environmental contamination dynamics.
Biochemical Research: In the labyrinth of biochemical inquiries, Benz[a]anthracene-[d12] serves as a beacon, illuminating the metabolic pathways of PAHs within organisms. By meticulously tracking the degradation and transformation of PAHs sans the formation of secondary metabolites, researchers glean precious insights into detoxification mechanisms and the potential toxicological impacts of these compounds. This unveiling showcases vital facets of biochemical processes, enhancing our comprehension of intricate biological mechanisms.
Analytical Chemistry: Nestled at the heart of gas chromatography-mass spectrometry (GC-MS) as an internal standard for quantifying PAHs, Benz[a]anthracene-[d12] assumes a pivotal role. Calibration of analytical instruments and assurance of measurement precision and accuracy hinge on its critical presence. This application is indispensable for discerning trace PAH amounts within intricate matrices, adhering to regulatory benchmarks and facilitating scrupulous analyses within the realm of analytical chemistry.
Toxicology Studies: A cornerstone in toxicological probes, Benz[a]anthracene-[d12] plays a paramount role in evaluating the carcinogenic potency and biological ramifications of PAHs. By scrutinizing its interactions with biological systems, researchers delineate dose-response correlations and pinpoint potential risk factors. This groundwork sets the stage for stringent risk assessment practices and the crafting of safety directives to safeguard human health with unwavering vigilance.
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