In the sophisticated world of nucleic acid synthesis, every component plays a vital role in determining the final product's quality and efficacy. Phosphoramidites are the foundational building blocks, and specific modifications can impart significant advantages. Among these, 2'-O-methylated nucleoside phosphoramidites have garnered considerable attention for their ability to improve the performance characteristics of synthesized oligonucleotides. This article delves into the importance of N-Acetyl-5'-O-(4,4-dimethoxytrityl)-2'-O-methylcytidine-3'-(2-cyanoethyl-N,N-diisopropyl)phosphoramidite (CAS 199593-09-4) for researchers and manufacturers seeking to optimize their synthesis processes.

Understanding 2'-O-Methyl Modifications

The 2'-position of the ribose sugar in RNA is a common site for chemical modification. The introduction of a methoxy group (-OCH3) at this position, as seen in 2'-O-methyl cytidine phosphoramidite, confers several key benefits:

  • Enhanced Nuclease Resistance: Ribonucleases (RNases) are enzymes that degrade RNA. Oligonucleotides containing 2'-O-methyl modifications are significantly more resistant to enzymatic cleavage, leading to longer half-lives in biological systems. This is crucial for therapeutic applications like antisense oligonucleotides (ASOs) and siRNAs, as well as for stable diagnostic probes.
  • Increased Binding Affinity: The 2'-O-methyl modification can subtly alter the conformation of the nucleic acid duplex, often leading to improved binding affinity to complementary sequences. This enhanced hybridization can boost the specificity and sensitivity of probes and therapeutic oligonucleotides.
  • Compatibility with DNA Synthesis: Importantly, 2'-O-methylated RNA phosphoramidites are fully compatible with standard automated DNA synthesis protocols. This allows for the creation of 'mixmer' oligonucleotides, which contain both DNA and 2'-O-methyl RNA residues, combining the benefits of both types of nucleic acids.

Why Choose High-Purity Phosphoramidites?

For any synthesis involving these specialized intermediates, purity is non-negotiable. Low-purity phosphoramidites can lead to:

  • Reduced coupling efficiencies.
  • Increased formation of deletion or insertion byproducts.
  • Difficulty in purification of the final oligonucleotide.
  • Compromised performance in downstream applications.

Therefore, it is vital for researchers and procurement specialists to buy from reputable manufacturers who guarantee high purity, typically demonstrated by HPLC analysis (e.g., 99%+). As a leading supplier and manufacturer of fine chemicals and pharmaceutical intermediates in China, we are dedicated to providing these assurances.

Sourcing and Application of 2'-O-Methyl Cytidine Phosphoramidite

When seeking to purchase N-Acetyl-5'-O-(4,4-dimethoxytrityl)-2'-O-methylcytidine-3'-(2-cyanoethyl-N,N-diisopropyl)phosphoramidite, consider the following:

  • Manufacturer Reputation: Partner with experienced manufacturers who have a proven track record in synthesizing complex intermediates.
  • Quality Assurance: Ensure the supplier provides detailed Certificates of Analysis (CoAs) and adheres to strict quality control measures.
  • Pricing and Availability: Inquire about the price for bulk orders and confirm supply chain reliability.

This specific phosphoramidite is indispensable for researchers working on antisense therapies, siRNA delivery, molecular diagnostics, and the development of novel aptamers. We invite you to contact us for a quote on this critical intermediate and to explore our comprehensive range of oligonucleotide synthesis building blocks. Leveraging our expertise as a trusted supplier ensures you receive the quality materials needed for your groundbreaking work.