L-Selenomethionine (CAS 3211-76-5): A Comprehensive Guide to its Properties, Applications, and Benefits
Discover the critical role of L-Selenomethionine in cellular health and research, exploring its unique biochemical functions.
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L-Selenomethionine
L-Selenomethionine, identified by CAS number 3211-76-5, is a critical organic selenium compound renowned for its role in enhancing antioxidant defense mechanisms within cells. This selenium amino acid analog is known to significantly elevate the expression of key antioxidant enzymes, such as thioredoxin reductase, glutathione reductase, and glutathione peroxidase. Furthermore, it has demonstrated a remarkable ability to selectively induce apoptosis in cancer cells without adversely affecting healthy cells, making it a compound of significant interest in oncological research.
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Key Advantages of L-Selenomethionine
Enhanced Antioxidant Capacity
L-Selenomethionine boosts the body's natural defense against oxidative stress by increasing the levels of vital antioxidant enzymes, a key benefit for those researching cellular health and aging.
Selective Cancer Cell Apoptosis
Its ability to trigger programmed cell death in cancerous cells, while sparing normal cells, makes L-Selenomethionine a valuable tool for cancer research and potential therapeutic development.
Versatile Research Applications
As a widely recognized biochemical reagent, L-Selenomethionine is indispensable for various scientific inquiries, from molecular biology to investigating selenium's role in metabolic pathways.
Key Applications
Biochemical Research
Utilize L-Selenomethionine CAS 3211-76-5 as a fundamental compound in laboratory experiments to study selenium metabolism and its impact on cellular processes.
Nutraceutical Development
Investigate its potential as a component in nutritional supplements aimed at improving antioxidant status and overall health, driven by the benefits associated with selenium amino acid compounds.
Cell Biology Studies
Employ this vital chemical in studies focusing on cell cycle progression, immune response modulation, and the mechanisms of oxidative stress, leveraging its distinct L-Selenomethionine properties.
Cancer Research
Incorporate L-Selenomethionine into studies aimed at understanding cancer cell proliferation and identifying novel chemopreventive agents, making it a sought-after compound for cancer research reagents.