TMEM179B Inhibitors
TMEM179B inhibitors encompass a variety of chemical compounds that influence specific signaling pathways or biological processes to lead to the functional inhibition of TMEM179B. The mechanisms by which these inhibitors operate are diverse, yet each has a distinct impact on cellular processes that can indirectly affect TMEM179B activity. For instance, compounds like rapamycin and LY294002 target the mTOR and PI3K/Akt pathways, respectively, which are crucial for protein synthesis and cell survival. The inhibition of these pathways can result in a decrease in the overall stability and activity of TMEM179B, as mTOR plays a pivotal role in the regulation of protein synthesis and autophagy, processes that are intimately connected with the functionality and expression of various proteins, including TMEM179B.
In addition to these, other compounds such as PD98059, SB203580, and SP600125 inhibit different kinases within the MAPK signaling pathway, which is known to modulate cellular growth and stress responses. Altered signaling through these pathways can impact the transcriptional and translational mechanisms that govern the expression and functionality of TMEM179B.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Lactacystin | 133343-34-7 | sc-3575 sc-3575A | 200 µg 1 mg | $165.00 $575.00 | 60 | |
Lactacystin is another proteasome inhibitor that prevents protein degradation. This inhibition can result in the accumulation of proteins that are typically degraded, influencing the activity of TMEM179B. | ||||||
Cycloheximide | 66-81-9 | sc-3508B sc-3508 sc-3508A | 100 mg 1 g 5 g | $40.00 $82.00 $256.00 | 127 | |
Cycloheximide inhibits protein biosynthesis by interfering with the translocation step in protein synthesis on ribosomes. This can lead to a general decrease in protein levels, including TMEM179B, affecting its functional activity. | ||||||