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Oligo Modifications List | Oligo Modifications Reference Category
Modification : 3'-O methyl rG
Reference Catalog Number 27-6458G
Category RNA Oligo Synthesis
Modification Code 3OmG
5 Prime Y
3 Prime Y
Internal Y
Molecular Weight (mw) 359.24
Extinction Coeficient (ec) 11.5
Technical Info (pdf) PS27-6458G.pdf
Abvsorbance MAX 260
Catalog NoScalePrice
27-6458G-0550 nmol$210.00
27-6458G-02200 nmol$210.00
27-6458G-011 umol$275.00
27-6458G-032 umol$310.00
27-6458G-1010 umol$2,200.00
27-6458G-1515 umol$2,750.00

Discounts are available for 3'-O methyl rG!
Modification* Discount Price Structure
1 site/order List price
2 sites/order 10% discount
3 sites/order 20% discount
4 sites/order 30% discount
5-9 sites/order 50% discount
10+ sites/order 60% discount
*Exceptions apply

Related Modifications
3'-rG (2'-5' linked)
3'-O methyl rG
3'-O methyl bases
3'-rC (2'-5' linked)
3'-O methyl rC
2'-F Bases
3'-rA (2'-5' linked)
2'-MOE- Bases
2'-O methyl bases
3'-dA (2'-5' linked)
3'-O methyl rI
3'-O methyl rA
3'-rU (2'-5' linked)
3'-O methyl rU

3'-O methyl bases (3’-Ome) form a 2'-5' phosphodiester linkage when placed internally. A single 3’-me base at the 3’ end will prevent the oligo from extension by polymerases.

3'-O methyl bases (3'-Ome)–(2'-5' linked), are used to substitute 2’-5’ phosphodiester linkages for the usual 3’-5’ phosphodiester linkages at some or all positions of an oligonucleotide. Oligonucleotides containing all, or primarily, 2’,5’-phosphodiester linkages selectively bind to complementary single-stranded 3’,5’-RNA over comparable 3’,5’-DNA. Presumably this selectively is a consequence of the 2’,5’-linkages destabilizing duplexes formed with 3’,5’-DNA more than those formed with 3’,5’-RNA, leading to 2’5’-RNA:3’,5’-DNA duplexes having much lower Tm than the corresponding 2’5’-RNA:3’,5’-RNA duplexes. This property means that RNA oligos containing such linkages could be useful in anti-sense applications, as ssRNA-specific probes, or as ligands for affinity purification of cellular RNA.

Antisense oligonucleotides (ASOs) and small interfering RNA (siRNA) are both recognized therapeutic agents for the silencing of specific genes at the posttranscriptional level. Chemical modifications, particularly 2’-O-(2-Methoxyethyl)- oligoribonucleotides (2’-O-MOE bases) and 2’-O-Methyl bases are commonly used to confer nuclease resistance to an oligo designed for anti-sense, siRNA or aptamer-based research, diagnostic or therapeutic purposes, when specific 2’-OH is not required.
Nuclease resistance can be further enhanced by phosphorothiolation of appropriate phosphodiester linkages within the oligo. These modifications confers nuclease resistance, high binding affinity towards complementary RNA, reduced unspecific protein binding and extended half-life in tissues.
Gapmers. Currently, the mainstream of the ASO is gapmer design ASOs. Gapmer design oligonucleotides, contain two to five chemically modified nucleotides (LNA, 2’-O methyl or 2’-O-MOE RNA) as “wings” at each terminus flanking a central 5- to10-base “gap” of DNA, enable cleavage of the target mRNA by RNase H, which recognizes DNA/RNA heteroduplexes. Usually all the phosphodiester linkages are converted to phosphorothioate.
Delivery. The development of effective delivery systems for antisense oligonucleotides is essential for their clinical therapeutic application. The most common delivery system involves a relatively hydrophobic molecule that can cross the lipid membrane. The following list of modifications are suitable for delivery system in addition to cell penetrating peptides.
Tocopherol (alpha-tocopherol, a natural isomer of vitamin E)


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