3'-PT-Amino-C6 CNA CPG
3'-PT-Amino-C6 CNA CPG
Key featuresShow Hide
- Amino modification allows post-synthetic attachment of labels to an oligonucleotide.
- Fmoc can be removed selectively without cleavage from the support allowing solid-phase conjugation of the desired label. This can be done prior to or subsequent to oligonucleotide synthesis.
- Standard bulk density 0.25-0.33 g/cc.
- Various pore sizes available.
Cannot add to favourites
An option must be selected in order to add to favourites
Incorporation of a primary amine reactive functional group at specific sites within an oligonucleotide allows for subsequent post-synthesis conjugation of the oligo with a number of different affinity, reporter or protein labels, depending on the application. Such labels need to be reactive towards the incorporated functional group: for example, NHS esters or isothiocyanates will react with primary amines. This approach is often necessary where the desired label or tag is either not available as a phosphoramidite, or is sensitive or unstable to the conditions of oligonucleotide synthesis or deprotection. A common example is the attachment of a rhodamine dye using the TAMRA NHS ester. Functionally-derivitised oligos can also be covalently attached to surfaces such as glass slides or gold microspheres for use in various microarray or nanoelectronic applications. The most commonly used product for introducing a 3'-amino functionality is Fmoc-protected 3'-amino C7 CPG. Use of an Fmoc-protected amine has both advantages and disadvantages. This is quite stable to oligo synthesis conditions however, if not handled correctly, some loss of Fmoc may occur. This leads to capping of the free amine with acetic anhydride and hence loss of functionality. The main advantage of Fmoc is that it can be removed selectively without cleavage from the support allowing solid-phase conjugation of the desired label. This can be done prior to or subsequent to oligonucleotide synthesis. Alternatives to Fmoc protection have been investigated. Phthalimide (PT) chemistry has been used in the development of 3'-PT-amino-C6 CPG (1), where the nitrogen that will ultimately provide the 3'-amino function is part of the PT group attached to the support through an imide group attached to the aromatic ring. This linkage is stable to all conditions of oligo synthesis and the resulting amino functionality does not add any additional chiral centres/diastereomers to the oligo.
- An improved CPG support for the synthesis of 3'-amine-tailed oligonucleotides, C.R. Petrie, M.W. Reed, A.D. Adams and R.B. Meyer, Jr., Bioconjugate Chem., 3, 85-87, 1992.