DL-Selenomethionine-[methyl-13C]

DL-Selenomethionine-[methyl-13C], a specially labeled compound with significant applications in biochemical and clinical research, is a catalyst for exploration and discovery. Here are key applications presented with elevated perplexity and burstiness:

Nutritional Studies: Delving into the intricate realm of nutritional studies, researchers employ DL-Selenomethionine-[methyl-13C] to unravel the mysteries of selenium metabolism and its impact on health. By meticulously tracing the labeled compound, scientists can quantify selenium absorption, distribution, and excretion within the body. This knowledge is pivotal in deciphering selenium's indispensable roles and formulating precise dietary guidelines.

Protein Research: Embarking on a journey into protein research, the labeled variant of selenomethionine serves as a cornerstone in the realm of proteomics for detailed protein structural analysis. Integration of DL-Selenomethionine-[methyl-13C] into proteins enables the precise delineation of protein structures using cutting-edge techniques like NMR spectroscopy. This aids in unraveling the mysteries of protein folding, interactions, and functional mechanisms, shedding light on the complexities of cellular processes.

Clinical Diagnostics: Within the realm of clinical diagnostics, DL-Selenomethionine-[methyl-13C] emerges as a valuable biomarker for evaluating selenium status in patients. Selenomethionine's selective incorporation into proteins offers insights into patients' selenium sufficiency or deficiency, guiding clinical decisions on nutritional interventions.

Cancer Research: In the dynamic landscape of cancer research, DL-Selenomethionine-[methyl-13C] takes center stage in exploring the intricate interplay between selenium and cancer prevention and treatment. Selenium's potent anticarcinogenic properties come to the forefront as researchers track the labeled compound to uncover metabolic alterations in cancer cells. These investigations deepen our understanding of selenium's protective attributes and open avenues for novel therapeutic applications in the fight against cancer.