Sphingosine Kinase (SK) Inhibitors
Learn MoreMethyltransferase inhibitors are a class of compounds that have emerged as valuable tools in the field of epigenetics research These inhibitors specifically target enzymes called methyltransferases which play a crucial role in the addition of methyl groups to DNA and histone proteins By blocking the activity of methyltransferases these inhibitors can modulate the pattern of DNA methylation and alter gene expression patterns This ability to epigenetically modify gene expression has significant implications for understanding diseases and developing potential therapeutic interventions Our company offers a range of high-quality and effective methyltransferase inhibitors that researchers can utilize to advance their epigenetic studies
Catalog Number | Chemical Name | CAS # | Price |
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BC-0011 | BIX 01294 | 935693-62-2 | Online Inquiry |
BC-0494 | 2',3',5'-triacetyl-5-Azacytidine | 10302-78-0 | Online Inquiry |
BC-0526 | BRD9539 | 1374601-41-8 | Online Inquiry |
EI-0038 | 2'-Deoxy-5-fluorocytidine | 10356-76-0 | Online Inquiry |
EI-0049 | 3-Deazaneplanocin A | 102052-95-9 | Online Inquiry |
EI-0050 | 3-Deazaneplanocin A hydrochloride | 120964-45-6 | Online Inquiry |
EI-0063 | 5-Aza-2'-deoxycytidine | 2353-33-5 | Online Inquiry |
EI-0066 | 5’-Deoxy-5’-methylthioadenosine | 2457-80-9 | Online Inquiry |
EI-0082 | A-196 | 1982372-88-2 | Online Inquiry |
EI-0084 | A-366 | 1527503-11-2 | Online Inquiry |
EI-0177 | AMI-5 | 17372-87-1 | Online Inquiry |
EI-0273 | AZ-505 ditrifluoroacetate | 1035227-44-1 | Online Inquiry |
EI-0344 | BAY-598 | 1906919-67-2 | Online Inquiry |
EI-0454 | BRD4770 | 1374601-40-7 | Online Inquiry |
EI-0463 | Bromodomain Inhibitor, (+)-JQ1 | 1268524-70-4 | Online Inquiry |
Methyltransferase inhibitors are a valuable tool in the realm of epigenetic research where they are used to study the role of DNA methylation in gene expression and disease development By blocking the activity of methyltransferase enzymes these inhibitors allow scientists to observe the effects of DNA demethylation potentially leading to a better understanding of epigenetic regulation and the development of new therapeutics
In the field of cancer research methyltransferase inhibitors show promise as potential anti-cancer agents Abnormal DNA methylation patterns are often observed in cancer cells leading to the silencing of tumor-suppressor genes By inhibiting methyltransferase enzymes these inhibitors can restore normal DNA methylation patterns potentially reversing the silencing of tumor-suppressor genes and inhibiting tumor growth
Furthermore methyltransferase inhibitors have implications in the field of neurobiology DNA methylation plays a crucial role in neuronal development and function and disturbances in DNA methylation are associated with neurological disorders such as Alzheimer's disease and schizophrenia By studying the effects of methyltransferase inhibitors on neuronal DNA methylation researchers can gain insights into the underlying mechanisms of these disorders and explore potential therapeutic interventions
Please note that all services are for research use only. Not intended for any clinical use.
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