Discover the Potential of 6,10,14,18-Tetramethyl-5,9,13,17-Nonadecatetraen-2-one
Unlock advanced research possibilities with this high-purity chemical.
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6,10,14,18-Tetramethyl-5,9,13,17-Nonadecatetraen-2-one
This advanced chemical, also known by synonyms like Teprenone and Selbex, serves as a crucial component in various scientific investigations. Its unique molecular structure and properties make it valuable for studying cellular protection mechanisms and signaling pathways.
- Explore the role of 6,10,14,18-Tetramethyl-5,9,13,17-Nonadecatetraen-2-one in inducing heat shock proteins for enhanced cellular resilience.
- Understand how Teprenone chemical properties contribute to inhibiting the TLR4 signaling pathway in research settings.
- Learn about the applications of this high purity C23H38O supplier in advanced electronic chemical formulations.
- Investigate the potential of geranylgeranylacetone research applications through its well-defined chemical characteristics.
Key Advantages
Biochemical Research Applications
Leverage the compound's ability to induce heat shock proteins (HSPs), vital for understanding cellular stress responses and protein homeostasis, a key area within biochemical research reagents.
Pathway Inhibition Studies
Utilize its demonstrated effect in inhibiting the TLR4 signaling pathway, crucial for research into inflammatory responses and immune modulation, aligning with the use of specialty electronic chemicals in biological contexts.
Versatile Chemical Properties
Benefit from its well-characterized properties as a yellow liquid with a high boiling point, making it suitable for complex organic synthesis and as an intermediate, supporting the niche of organic synthesis intermediates.
Key Applications
Cellular Protection Mechanisms
Investigate how this compound supports cellular health by modulating stress responses, a key aspect for those looking into biotechnology research compounds.
Protein Misfolding Research
Explore its role in studies related to protein misfolding, where increased HSP expression can be a critical factor in cellular resistance, aiding research in chemical analogues for HSP research.
Electronic Material Science
The chemical's properties also lend themselves to advanced applications within the electronic sector, particularly in areas requiring high-purity components.
Neurobiology Research
Studies suggest potential applications in neurobiology, including research into neuroprotection and related signaling pathways.