In this section: Introduction | Quality Control | Purification | Modifications | Long Oligos | Price List
In this section: Introduction | Molecular Beacon FAQ's | Fluorescent Probes Price List | Other Fluorescent Molecular Probes
In this section: SPCT | DME SPCT Intro | Order DME TaqMan® Assays SPCT | SNP PCT Search | Gene Expression Assays | SPCT Design Center | GeneAssays
In this section: RNA Oligonucleotides | Quality Control | Purification | Modifications | RNAi Explorer™ Products and Prices | Custom RNAi | RNAi Design Guidelines | SmartBase™ siRNA Modifications | shRNA Explorer™
In this section: PCR Amplification & Analysis
In this section: Introduction | Genemer™ | GeneProber™ | Prober™ Gene Detection Kits | GScan™ Gene Detection Kits | Genemer™ Control DNA | Infectious Diseases
In this section: Gene Construction
In this section: Introduction | The Omni-Clean™ System | The Omni-Pure™ Plasmid Purification System | The Omni-Pure™ Genomic DNA Purification System | Viral DNA & RNA Purification | Microbial DNA Purification | Plant DNA Purification
In this section: Introduction | Quality Control | Purification | Modifications | Long Oligos | Price List
In this section: Introduction | Molecular Beacon FAQ's | Fluorescent Probes Price List | Other Fluorescent Molecular Probes
In this section: SPCT | DME SPCT Intro | Order DME TaqMan® Assays SPCT | SNP PCT Search | Gene Expression Assays | SPCT Design Center | GeneAssays
In this section: RNA Oligonucleotides | Quality Control | Purification | Modifications | RNAi Explorer™ Products and Prices | Custom RNAi | RNAi Design Guidelines | SmartBase™ siRNA Modifications | shRNA Explorer™
In this section: PCR Amplification & Analysis
In this section: Introduction | Genemer™ | GeneProber™ | Prober™ Gene Detection Kits | GScan™ Gene Detection Kits | Genemer™ Control DNA | Infectious Diseases
In this section: Gene Construction
In this section: Introduction | The Omni-Clean™ System | The Omni-Pure™ Plasmid Purification System | The Omni-Pure™ Genomic DNA Purification System | Viral DNA & RNA Purification | Microbial DNA Purification | Plant DNA Purification
2'-O-methoxy-ethyl 5me Uridine-(2'-MOE 5me U)
2'-MOE-5mU
Code : [MOE-mU]
Modification : 2'-MOE-5mU
Catalog Reference Number
Category
Modification Code
5 Prime
3 Prime
Internal
Molecular Weight (mw)
Extinction Coeficient (ec)
Technical Info (pdf)
Absorbance MAX
Emission MAX
Absorbance EC
Catalog No | Scale | Price | 27-6450mU-05 | 50 nmol | $15.00 | 27-6450mU-02 | 200 nmol | $15.00 | 27-6450mU-01 | 1 umol | $18.00 | 27-6450mU-03 | 2 umol | $28.00 | 27-6450mU-06 | 5 umol | $81.00 | 27-6450mU-10 | 10 umol | $119.00 | 27-6450mU-15 | 15 umol | $149.00 |
Discounts are available for 2'-MOE-5mU! |
Modification* Discount Price Structure |
1 site/order
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List price
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2 sites/order
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10% discount
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3 sites/order
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20% discount
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4 sites/order
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30% discount
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5-9 sites/order
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50% discount
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10+ sites/order
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60% discount
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*Exceptions apply
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Antisense Oligos (ODN) & siRNA Oligo Modifications
Click here for more information on antisense modifications, design & applications.
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- to 10-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.
ASO's and siRNA Modifications.
Click this link to view ASO's and siRNA Modifications.
ASO's and siRNA 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. Cholesterol TEG, alpha-Tocopherol TEG ( a natural isomer of vitamin E), stearyl and GalNAc modifications have been shown to effective for delivery of ASO's and siRNA in addition to cell penetrating peptides.
Click this link to view these modifications.
- 2'-O-methoxy-ethyl 5me Uridine-(2'-MOE 5me U)
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