SOLO Activators
SOLO Activators is a chemical class that primarily consists of compounds designed to target specific cellular processes, notably gene expression and transcriptional regulation. These activators are engineered to interact with key molecular components within cells, thereby modulating the activity of specific genes. One of the fundamental mechanisms behind SOLO Activators involves their ability to bind to transcription factors, which are proteins that control the transcription of genetic information from DNA to RNA. By interacting with these transcription factors, SOLO Activators can either enhance or suppress gene expression, ultimately influencing the production of specific proteins in a highly controlled manner.
These chemical compounds are often developed through extensive research and molecular design, aiming to achieve precision in their cellular interactions. Researchers and scientists in various fields employ SOLO Activators to gain a better understanding of the genetic underpinnings of cellular processes, signaling pathways, and gene regulation. This class of chemicals plays a pivotal role in basic biological research, enabling scientists to dissect the intricate mechanisms that govern gene expression. By fine-tuning the activity of specific genes, researchers can explore the functional consequences and downstream effects of gene manipulation, which can contribute to our understanding of normal cellular physiology and insights into various diseases.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Olomoucine | 101622-51-9 | sc-3509 sc-3509A | 5 mg 25 mg | $72.00 $274.00 | 12 | |
Olomoucine, a purine derivative, is known to increase CDK2 activation by competing with inhibitory ATP analogs, leading to enhanced kinase activity. | ||||||
Roscovitine | 186692-46-6 | sc-24002 sc-24002A | 1 mg 5 mg | $94.00 $265.00 | 42 | |
Roscovitine acts as a CDK inhibitor but can enhance CDK2 activity by selectively inhibiting other CDKs that negatively regulate CDK2 activity through complex formation. | ||||||
Purvalanol A | 212844-53-6 | sc-224244 sc-224244A | 1 mg 5 mg | $72.00 $297.00 | 4 | |
Purvalanol A is a potent CDK inhibitor that can indirectly increase CDK2 activity by inhibiting competing CDKs, releasing CDK2 from inhibitory complexes. | ||||||
SNS-032 | 345627-80-7 | sc-364621 sc-364621A | 5 mg 10 mg | $169.00 $262.00 | ||
SNS-032 is known to selectively inhibit CDKs and can lead to increased CDK2 activity by inhibiting regulatory CDKs that form inhibitory complexes with CDK2. | ||||||
Dinaciclib | 779353-01-4 | sc-364483 sc-364483A | 5 mg 25 mg | $247.00 $888.00 | 1 | |
Dinaciclib inhibits several CDKs and can indirectly activate CDK2 by preventing the formation of CDK2 inhibitory complexes with other CDKs. | ||||||
Flavopiridol | 146426-40-6 | sc-202157 sc-202157A | 5 mg 25 mg | $78.00 $259.00 | 41 | |
Flavopiridol inhibits various CDKs, and its selective action can result in the activation of CDK2 by reducing competition from other CDKs. | ||||||
Indirubin-3′-monoxime | 160807-49-8 | sc-202660 sc-202660A sc-202660B | 1 mg 5 mg 50 mg | $79.00 $321.00 $671.00 | 1 | |
This compound can enhance CDK2 activity by selectively inhibiting CDKs that negatively regulate CDK2, thus indirectly increasing its activity. | ||||||
SU 9516 | 377090-84-1 | sc-222330 sc-222330A | 5 mg 25 mg | $124.00 $391.00 | 3 | |
SU9516 is a selective CDK inhibitor that can lead to increased CDK2 activity by inhibiting CDKs that compete with or negatively regulate CDK2. | ||||||
Palbociclib | 571190-30-2 | sc-507366 | 50 mg | $321.00 | ||
PD0332991, while a CDK inhibitor, can enhance CDK2 activity through selective inhibition of other CDKs, modulating the cell cycle and CDK2 activity. | ||||||
AT7519 | 844442-38-2 | sc-364416 sc-364416A sc-364416B sc-364416C | 5 mg 10 mg 100 mg 1 g | $291.00 $341.00 $1046.00 $3126.00 | 1 | |
AT7519 inhibits multiple CDKs and can increase CDK2 activity by inhibiting CDKs that sequester CDK2 in inactive complexes. | ||||||