N6-Methyl-2-deoxyadenosine: A Highly Specialized Compound for Scientific Research

REF #: 3200242
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Short description
  • N6-Methyl-2u201au00c4u2264-deoxyadenosine: A key precursor to N6-methyl 2u201au00c4u2264-deoxyadenosine 3u201au00c4u2264,5u201au00c4u2264-bisphosphate (N6MABP)
  • Chemical Formula: Unknown
  • Chemical Name: N6-Methyl-2u201au00c4u2264-deoxyadenosine (N6-Me-dAdo)
  • CAS Number: 2002-35-9
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Description

N6-Methyl-2-deoxyadenosine: A Highly Specialized Compound for Scientific Research

N6-Methyl-2-deoxyadenosine (N6-Me-dAdo) is a highly specialized compound that serves as a valuable precursor for the synthesis of N6-methyl 2-deoxyadenosine 3,5-bisphosphate (N6MABP). With its unique properties, this compound finds widespread applications in various scientific research fields.

Chemical Formula and Name

  • Chemical Formula: Unknown
  • Chemical Name: N6-Methyl-2-deoxyadenosine (N6-Me-dAdo)
  • CAS Number: 2002-35-9

Other Names:

  • N6-Methyl-2-deoxyadenosine
  • N6-Me-dAdo

Features and Applications

  • Key precursor: N6-Methyl-2-deoxyadenosine serves as an essential precursor for the synthesis of N6-methyl 2-deoxyadenosine 3,5-bisphosphate (N6MABP). N6MABP plays a crucial role in cellular processes and biochemical reactions.
  • Biochemical research: N6-Methyl-2-deoxyadenosine finds extensive use in biochemical research, particularly in studies related to DNA methylation and epigenetic modifications. Its methyl group can be enzymatically transferred to genomic DNA, modulating gene expression and potentially influencing various biological processes.
  • Epigenetic studies: The ability of N6-Methyl-2-deoxyadenosine to modulate DNA methylation patterns makes it a valuable tool for epigenetic studies. By altering DNA methylation, researchers can delve into the impact of epigenetic modifications on gene regulation, cellular differentiation, and disease development.
  • Signal transduction: N6-Methyl-2-deoxyadenosine is sometimes utilized in studies investigating signal transduction pathways. It can act as an agonist or antagonist for specific cellular receptors, enabling researchers to gain insights into receptor-ligand interactions.
  • Pharmacological research: Researchers also employ N6-Methyl-2-deoxyadenosine in pharmacological research to examine its potential as a therapeutic agent or as a drug target. The compound's structural similarity to adenosine allows for exploration of its impact on cellular signaling and its potential role in diseases.
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