PRAMEF3 Activators
PRAMEF3, a member of the PRAME (Preferentially Expressed Antigen in Melanoma) family of genes, has piqued the interest of the scientific community due to its distinctive expression profile. PRAME family members are known as cancer-testis antigens because they are typically expressed in a variety of cancers while remaining quiescent in most normal tissues. PRAMEF3's function is not yet completely understood, but it is thought to play a role in the intricate biological processes associated with cell differentiation and proliferation. The regulation of PRAMEF3 expression is an area of active research, as it may provide insights into the molecular mechanisms that govern gene expression in both normal physiology and disease states.
The expression of PRAMEF3 can be influenced by a diverse array of chemical compounds, which can serve as activators by engaging with the cell's regulatory machinery. Compounds such as 5-Azacytidine and Trichostatin A, for instance, may induce expression by altering the epigenetic landscape; they're known to inhibit DNA methyltransferase and histone deacetylase, respectively, which can result in an open chromatin state conducive to gene transcription. Other activators, like retinoic acid and forskolin, may stimulate PRAMEF3 expression through receptor-mediated signaling pathways. Retinoic acid engages with its nuclear receptors, potentially increasing gene transcription, while forskolin elevates cAMP levels, activating protein kinase A and other downstream transcription factors. Additionally, compounds like doxorubicin and temozolomide could promote expression by inducing cellular stress responses, leading to the activation of signaling pathways that may include PRAMEF3 as a target. Natural compounds such as curcumin, epigallocatechin gallate, and sulforaphane are also considered potential activators due to their ability to modulate gene expression by affecting various signal transduction and epigenetic modulation pathways. It is through understanding the interaction of these compounds with cellular processes that researchers can elucidate the regulatory mechanisms controlling PRAMEF3 expression.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
5-Azacytidine | 320-67-2 | sc-221003 | 500 mg | $280.00 | 4 | |
By inhibiting DNA methyltransferase, 5-Azacytidine could potentially lead to the hypomethylation of the PRAMEF3 gene promoter, resulting in the upregulation of its expression. | ||||||
Trichostatin A | 58880-19-6 | sc-3511 sc-3511A sc-3511B sc-3511C sc-3511D | 1 mg 5 mg 10 mg 25 mg 50 mg | $149.00 $470.00 $620.00 $1199.00 $2090.00 | 33 | |
Trichostatin A may enhance the transcription of PRAMEF3 by inhibiting histone deacetylases, thereby unwinding the chromatin structure at the gene locus and facilitating transcriptional activation. | ||||||
Sodium Butyrate | 156-54-7 | sc-202341 sc-202341B sc-202341A sc-202341C | 250 mg 5 g 25 g 500 g | $30.00 $46.00 $82.00 $218.00 | 18 | |
This compound could increase the expression of PRAMEF3 by inhibiting histone deacetylases, which may lead to a more open chromatin structure in the region of the gene, enabling transcriptional machinery better access to the DNA. | ||||||
Retinoic Acid, all trans | 302-79-4 | sc-200898 sc-200898A sc-200898B sc-200898C | 500 mg 5 g 10 g 100 g | $65.00 $319.00 $575.00 $998.00 | 28 | |
Retinoic acid could stimulate PRAMEF3 expression by activating retinoic acid receptors, which may bind to retinoic acid response elements in the gene's promoter region, inducing transcription. | ||||||
Doxorubicin | 23214-92-8 | sc-280681 sc-280681A | 1 mg 5 mg | $173.00 $418.00 | 43 | |
Doxorubicin may initiate a cellular stress response due to DNA damage, which could include the activation of signal transduction pathways leading to the upregulation of PRAMEF3 expression. | ||||||
Forskolin | 66575-29-9 | sc-3562 sc-3562A sc-3562B sc-3562C sc-3562D | 5 mg 50 mg 1 g 2 g 5 g | $76.00 $150.00 $725.00 $1385.00 $2050.00 | 73 | |
By increasing intracellular cAMP, forskolin can activate cAMP-dependent protein kinase A (PKA), which may then phosphorylate transcription factors that stimulate PRAMEF3 gene transcription. | ||||||
PMA | 16561-29-8 | sc-3576 sc-3576A sc-3576B sc-3576C sc-3576D | 1 mg 5 mg 10 mg 25 mg 100 mg | $40.00 $129.00 $210.00 $490.00 $929.00 | 119 | |
PMA can activate protein kinase C, which might phosphorylate and activate transcription factors that enhance the expression of PRAMEF3. | ||||||
Dexamethasone | 50-02-2 | sc-29059 sc-29059B sc-29059A | 100 mg 1 g 5 g | $76.00 $82.00 $367.00 | 36 | |
This glucocorticoid could stimulate the expression of PRAMEF3 by binding to glucocorticoid receptors, which may interact with glucocorticoid response elements in the promoter region of the gene. | ||||||
Temozolomide | 85622-93-1 | sc-203292 sc-203292A | 25 mg 100 mg | $89.00 $250.00 | 32 | |
Temozolomide may elicit a DNA damage response that includes the activation of signaling pathways leading to the upregulation of DNA repair genes, potentially including PRAMEF3. | ||||||
Curcumin | 458-37-7 | sc-200509 sc-200509A sc-200509B sc-200509C sc-200509D sc-200509F sc-200509E | 1 g 5 g 25 g 100 g 250 g 1 kg 2.5 kg | $36.00 $68.00 $107.00 $214.00 $234.00 $862.00 $1968.00 | 47 | |
Curcumin could stimulate PRAMEF3 expression by activating transcription factors through its antioxidant properties, leading to the transcription of genes involved in cellular defense mechanisms. | ||||||