FOXD4L2-6 Inhibitors
The chemical class of FOXD4L2-6 Inhibitors consists of a diverse array of compounds that indirectly influence the activity of the FOXD4L2-6 protein. These inhibitors operate through various mechanisms, impacting different signaling pathways and cellular processes related to the function of FOXD4L2-6.
For example, Berberine and Emodin, known for their interactions with nucleic acids and kinase signaling, respectively, could modulate the transcriptional and translational control of FOXD4L2-6. Similarly, compounds like Withaferin A and Hesperidin, with effects on NF-kB signaling and cytokine modulation, may indirectly affect FOXD4L2-6 regulation in immune and inflammatory responses.
Furthermore, compounds such as Betulinic acid and Ursolic acid underscore the complex interplay between apoptosis, cell growth, and differentiation in regulating proteins like FOXD4L2-6. Icariin's role in endothelial cell function and Apigenin's impact on G-protein-coupled receptor signaling also highlight the diverse pathways through which these inhibitors can act.
Additionally, Naringenin's modulation of metabolic enzymes and Catechin's influence on oxidative stress response exemplify how metabolic and redox regulation can affect FOXD4L2-6 activity. Carnosic acid and Ellagic acid further illustrate the potential of these inhibitors to impact FOXD4L2-6 in specific contexts like neural cell survival and DNA repair mechanisms.
In summary, the chemical class of FOXD4L2-6 Inhibitors represents a group of compounds with varied molecular actions. These inhibitors, through their interactions with different cellular pathways, provide a multifaceted approach to modulating the activity of FOXD4L2-6. Understanding these diverse mechanisms is crucial for comprehending the regulation of FOXD4L2-6 and sheds light on the intricate network of cellular signaling and regulation. This insight is not only pivotal in molecular biology but also in the development of strategies for influencing the activity of specific proteins like FOXD4L2-6.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Berberine | 2086-83-1 | sc-507337 | 250 mg | $90.00 | 1 | |
Interacts with DNA and RNA, potentially affecting FOXD4L2-6 transcription and expression. | ||||||
Emodin | 518-82-1 | sc-202601 sc-202601A sc-202601B | 50 mg 250 mg 15 g | $103.00 $210.00 $6132.00 | 2 | |
Alters kinase signaling and transcription factor activity, possibly modulating FOXD4L2-6. | ||||||
Withaferin A | 5119-48-2 | sc-200381 sc-200381A sc-200381B sc-200381C | 1 mg 10 mg 100 mg 1 g | $127.00 $572.00 $4090.00 $20104.00 | 20 | |
Influences nuclear factor-kappa B signaling, which could intersect with FOXD4L2-6 related pathways. | ||||||
Hesperidin | 520-26-3 | sc-205711 sc-205711A | 25 g 100 g | $80.00 $200.00 | 5 | |
Modulates inflammatory cytokines, potentially affecting FOXD4L2-6 expression in immune responses. | ||||||
Betulinic Acid | 472-15-1 | sc-200132 sc-200132A | 25 mg 100 mg | $115.00 $337.00 | 3 | |
Impacts cellular apoptosis mechanisms, possibly influencing FOXD4L2-6 through cell survival pathways. | ||||||
Ursolic Acid | 77-52-1 | sc-200383 sc-200383A | 50 mg 250 mg | $55.00 $176.00 | 8 | |
Modulates cell growth and differentiation pathways, potentially influencing FOXD4L2-6 activity. | ||||||
Icariin | 489-32-7 | sc-279198 sc-279198A sc-279198B | 1 g 5 g 10 g | $142.00 $413.00 $814.00 | ||
Influences endothelial cell function, potentially affecting FOXD4L2-6 in angiogenesis. | ||||||
Apigenin | 520-36-5 | sc-3529 sc-3529A sc-3529B sc-3529C sc-3529D sc-3529E sc-3529F | 5 mg 100 mg 1 g 5 g 25 g 100 g 1 kg | $32.00 $210.00 $720.00 $1128.00 $2302.00 $3066.00 $5106.00 | 22 | |
Affects G-protein coupled receptor signaling, which might intersect with FOXD4L2-6 pathways. | ||||||
Naringenin | 480-41-1 | sc-219338 | 25 g | $245.00 | 11 | |
Modulates metabolic enzymes and could influence FOXD4L2-6 through metabolic regulation. | ||||||
Catechin | 154-23-4 | sc-205624 sc-205624A | 1 mg 5 mg | $130.00 $293.00 | 3 | |
Alters oxidative stress response, potentially affecting FOXD4L2-6 through redox regulation. | ||||||