7-Bromobenz[a]anthracene-[13C6]

7-Bromobenz[a]anthracene-[13C6], a chemical compound pivotal in diverse scientific research applications, finds particular relevance in environmental and biomedical studies. Here are key applications of 7-Bromobenz[a]anthracene-[13C6] presented with high perplexity and burstiness:

Environmental Monitoring: Serving as an isotopically labeled compound in environmental research, 7-Bromobenz[a]anthracene-[13C6] acts as a crucial tracer for exploring environmental pollutants in biogeochemical realms. By integrating this compound into soil or water samples, researchers can meticulously track the movements of polycyclic aromatic hydrocarbons (PAHs) within ecosystems, shedding light on the persistence and ecological impact of PAHs.

Metabolism Studies: In the realm of pharmacokinetics and toxicology, 7-Bromobenz[a]anthracene-[13C6] plays a central role in dissecting the metabolic pathways of PAHs within biological systems. By scrutinizing the metabolic byproducts within cell lines or model organisms, scientists can decipher the intricate bioactivation and detoxification routes of these compounds, crucial for evaluating the associated health risks from PAH exposure.

Cancer Research: Delving into the intricate world of cancer biology, researchers leverage 7-Bromobenz[a]anthracene-[13C6] to explore the mechanisms underpinning carcinogenesis. This compound serves as a prototypical PAH, enabling the examination of DNA adduct formation and mutagenic impacts, both in vitro and in vivo. Insights gleaned from such studies aid in pinpointing biomarkers of exposure and unraveling the molecular intricacies fueling PAH-induced cancers.

Analytical Chemistry: Within analytical laboratories, 7-Bromobenz[a]anthracene-[13C6] assumes a vital role as an internal standard in mass spectrometry for quantifying PAHs within complex samples. Its isotopic labeling confers a distinctive signal, ensuring precise measurement and calibration during the analysis of environmental or biological samples. This application stands as a cornerstone for conducting high-precision toxicological assessments and regulatory compliance testing, underpinning the veracity and reliability of analytical findings.