E030010A14Rik Inhibitors
Tmem252, predicted to be an integral component of the membrane, emerges as a pivotal player in cellular processes with a focus on membrane-related functions. The gene's localization within the membrane implies its engagement in critical roles associated with membrane integrity and dynamics. The expression of Tmem252 in distinct tissues, such as the brain, renal calyx, and spinal cord, further underscores its importance in various physiological contexts. As an ortholog of the human TMEM252, this transmembrane protein likely participates in essential cellular functions, with a particular emphasis on processes related to the structural and functional integrity of cellular membranes.
The inhibition of Tmem252 involves a diverse array of chemicals, each targeting distinct cellular pathways and processes. The indirect mechanisms of inhibition outlined in the table shed light on the intricate interplay between Tmem252 and crucial cellular dynamics. Compounds affecting ion transport, membrane structure, and signaling cascades indirectly impact Tmem252, influencing its localization or function within the membrane. The diverse nature of these inhibitors, ranging from sodium channel blockers to histamine receptor antagonists, highlights the multifaceted regulatory network governing Tmem252. These compounds, while not directly modulating Tmem252 itself, showcase the interconnectedness of cellular processes and the potential for altering Tmem252 function by influencing broader cellular pathways associated with membrane dynamics. Moreover, the inhibition of Tmem252 involves manipulation of various cellular factors, including ion gradients, membrane composition, and signaling cascades. These factors collectively contribute to the intricate regulation of Tmem252 function within the membrane. As the field of molecular biology continues to advance, further investigations into the specific biochemical and cellular pathways influenced by these inhibitors will unveil the detailed mechanisms underpinning Tmem252's modulation. Understanding the nuanced relationships between Tmem252 and the cellular processes affected by these inhibitors is essential for unraveling the broader landscape of membrane biology and the intricate roles played by integral membrane proteins like Tmem252. Thus, the study of Tmem252 and its inhibition offers a gateway to explore the intricate choreography of cellular membrane dynamics and its profound impact on various physiological contexts.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Amiloride | 2609-46-3 | sc-337527 | 1 g | $296.00 | 7 | |
Sodium channel blocker affecting ion transport. Indirectly inhibits Tmem252 by disrupting ion homeostasis, which can influence membrane potential and cellular processes associated with membrane integrity. Altered ion transport may impact the localization or function of Tmem252 in the membrane. | ||||||
Nystatin | 1400-61-9 | sc-212431 sc-212431A sc-212431B sc-212431C | 5 MU 25 MU 250 MU 5000 MU | $51.00 $129.00 $251.00 $3570.00 | 7 | |
Antifungal agent targeting membrane ergosterol. Indirectly inhibits Tmem252 by disrupting membrane structure and function. Changes in membrane composition and integrity may influence the localization or stability of Tmem252, impacting its function as an integral membrane protein. | ||||||
Ouabain-d3 (Major) | sc-478417 | 1 mg | $516.00 | |||
Cardiac glycoside inhibiting Na+/K+-ATPase. Indirectly inhibits Tmem252 by disrupting ion transport and membrane potential. Altered ion gradients may impact cellular processes associated with membrane integrity, potentially affecting the localization or function of Tmem252 in the membrane. | ||||||
Tamoxifen | 10540-29-1 | sc-208414 | 2.5 g | $272.00 | 18 | |
Selective estrogen receptor modulator (SERM). Indirectly inhibits Tmem252 through estrogen receptor signaling. Altered estrogen signaling may influence membrane-related processes, potentially impacting the localization or function of Tmem252 as an integral membrane protein. | ||||||
Terfenadine | 50679-08-8 | sc-208421A sc-208421B sc-208421 | 500 mg 1 g 5 g | $44.00 $71.00 $120.00 | ||
Histamine H1 receptor antagonist. Indirectly inhibits Tmem252 through histamine receptor signaling. Altered histamine signaling may influence membrane-related processes, potentially impacting the localization or function of Tmem252 as an integral membrane protein. | ||||||
Omeprazole | 73590-58-6 | sc-202265 | 50 mg | $67.00 | 4 | |
Proton pump inhibitor affecting gastric acid secretion. Indirectly inhibits Tmem252 by modulating intracellular pH and membrane proton gradients. Changes in pH may impact membrane-related processes, potentially affecting the localization or function of Tmem252 as an integral membrane protein. | ||||||
Chlorpromazine | 50-53-3 | sc-357313 sc-357313A | 5 g 25 g | $61.00 $110.00 | 21 | |
Typical antipsychotic affecting neurotransmitter receptors. Indirectly inhibits Tmem252 through neurotransmitter signaling. Altered neurotransmitter signaling may influence membrane-related processes, potentially impacting the localization or function of Tmem252 as an integral membrane protein. | ||||||
Staurosporine | 62996-74-1 | sc-3510 sc-3510A sc-3510B | 100 µg 1 mg 5 mg | $82.00 $153.00 $396.00 | 113 | |
Broad-spectrum protein kinase inhibitor. Indirectly inhibits Tmem252 by impacting signaling pathways related to membrane dynamics. Changes in kinase activity may influence membrane-related processes, potentially affecting the localization or function of Tmem252 as an integral membrane protein. | ||||||
Thioridazine | 50-52-2 | sc-473180 | 50 mg | $500.00 | ||
Typical antipsychotic affecting neurotransmitter receptors. Indirectly inhibits Tmem252 through neurotransmitter signaling. Altered neurotransmitter signaling may influence membrane-related processes, potentially impacting the localization or function of Tmem252 as an integral membrane protein. | ||||||
12β-Hydroxydigitoxin | 20830-75-5 | sc-213604 sc-213604A | 1 g 5 g | $143.00 $694.00 | ||
Cardiac glycoside inhibiting Na+/K+-ATPase. Indirectly inhibits Tmem252 by disrupting ion transport and membrane potential. Altered ion gradients may impact cellular processes associated with membrane integrity, potentially affecting the localization or function of Tmem252 in the membrane. | ||||||