ZC3HAV1L Inhibitors
ZC3HAV1L inhibitors are a class of chemical compounds designed to suppress the activity of the ZC3HAV1-like protein, a molecule implicated in a variety of cellular processes including viral defense mechanisms, RNA metabolism, and intracellular signaling pathways. The inhibition of ZC3HAV1L is primarily achieved through the targeted disruption of its interactions with key signaling molecules or through the attenuation of pathways that are crucial for its activation and function. These inhibitors are characterized by their ability to bind directly to the ZC3HAV1L protein or to its partner proteins, thereby preventing the conformational changes necessary for its activity. Some inhibitors may also work by interfering with the post-translational modifications of ZC3HAV1L, which are essential for its localization and function within the cell. The specificity of these compounds ensures that they affect only the intended target without disturbing other cellular functions. The development of ZC3HAV1L inhibitors involves a detailed understanding of the protein's structure, the nature of its active site, and the dynamics of its interaction with other cellular components.
The efficacy of ZC3HAV1L inhibitors lies in their precision in impeding the protein's role in RNA binding and processing, an activity that is crucial for the maintenance of cellular homeostasis. By thwarting ZC3HAV1L's ability to engage with RNA substrates, these inhibitors can effectively curtail the protein's influence on gene expression and the innate immune response. Furthermore, due to the critical position of ZC3HAV1L in the signaling cascade, these inhibitors can lead to a downstream reduction in the activity of various effectors and regulatory proteins. This makes ZC3HAV1L inhibitors a focal point for research into the modulation of specific cellular processes. The design of these inhibitors is a complex task that requires an intricate balance between potency, selectivity, and the ability to cross cellular membranes to reach intracellular targets. As a result, these compounds are often the product of rational drug design, utilizing computational models and structure-activity relationship studies to optimize their interaction with the protein.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Staurosporine | 62996-74-1 | sc-3510 sc-3510A sc-3510B | 100 µg 1 mg 5 mg | $82.00 $150.00 $388.00 | 113 | |
Staurosporine is a potent inhibitor of protein kinases. It can indirectly inhibit ZC3HAV1L by preventing activation of kinases required for the phosphorylation steps that are crucial for ZC3HAV1L's activation or stabilization within the cell. | ||||||
LY 294002 | 154447-36-6 | sc-201426 sc-201426A | 5 mg 25 mg | $121.00 $392.00 | 148 | |
LY294002 is a PI3K inhibitor that can reduce the activity of AKT signaling pathways, which may be necessary for the proper functioning or localization of ZC3HAV1L. By inhibiting PI3K, downstream effects on ZC3HAV1L are impacted. | ||||||
PD 98059 | 167869-21-8 | sc-3532 sc-3532A | 1 mg 5 mg | $39.00 $90.00 | 212 | |
PD98059 is an inhibitor of MEK, which works upstream in the MAPK/ERK pathway. Inhibition of this pathway can lead to reduced activity of transcription factors that might control ZC3HAV1L expression or activity. | ||||||
SP600125 | 129-56-6 | sc-200635 sc-200635A | 10 mg 50 mg | $40.00 $150.00 | 257 | |
SP600125 is an inhibitor of JNK, which could alter transcription factor activity and potentially decrease ZC3HAV1L expression if JNK signaling is involved in its regulation. | ||||||
SB 203580 | 152121-47-6 | sc-3533 sc-3533A | 1 mg 5 mg | $88.00 $342.00 | 284 | |
SB203580 is a p38 MAPK inhibitor, which might decrease the expression or activity of ZC3HAV1L by affecting the pathways that regulate inflammatory responses, where ZC3HAV1L could play a role. | ||||||
Rapamycin | 53123-88-9 | sc-3504 sc-3504A sc-3504B | 1 mg 5 mg 25 mg | $62.00 $155.00 $320.00 | 233 | |
Rapamycin is an mTOR inhibitor, which can lead to altered protein translation profiles, potentially reducing ZC3HAV1L levels if mTOR signaling is involved in its translation or stability. | ||||||
MG-132 [Z-Leu- Leu-Leu-CHO] | 133407-82-6 | sc-201270 sc-201270A sc-201270B | 5 mg 25 mg 100 mg | $56.00 $260.00 $980.00 | 163 | |
MG132 is a proteasome inhibitor which could increase the degradation of ZC3HAV1L by preventing the destruction of proteins that might regulate its degradation. | ||||||
Cyclosporin A | 59865-13-3 | sc-3503 sc-3503-CW sc-3503A sc-3503B sc-3503C sc-3503D | 100 mg 100 mg 500 mg 10 g 25 g 100 g | $62.00 $90.00 $299.00 $475.00 $1015.00 $2099.00 | 69 | |
Cyclosporin A is an immunosuppressant that inhibits calcineurin. By doing so, it may prevent the dephosphorylation of NFAT, which potentially could affect ZC3HAV1L regulation if ZC3HAV1L is involved in immune response pathways. | ||||||
Brefeldin A | 20350-15-6 | sc-200861C sc-200861 sc-200861A sc-200861B | 1 mg 5 mg 25 mg 100 mg | $30.00 $52.00 $122.00 $367.00 | 25 | |
Brefeldin A disrupts Golgi apparatus function, which could indirectly inhibit ZC3HAV1L by altering its post-translational modification or trafficking, assuming ZC3HAV1L requires Golgi processing for its function. | ||||||
Wortmannin | 19545-26-7 | sc-3505 sc-3505A sc-3505B | 1 mg 5 mg 20 mg | $66.00 $219.00 $417.00 | 97 | |
Wortmannin is another PI3K inhibitor, which, like LY294002, could diminish AKT signaling and subsequently impact ZC3HAV1L activity or stability if it relies on PI3K/AKT pathway components. | ||||||