7-deaza-dX-CE Phosphoramidite |
Catalog Number: 10-1076-xx
Description: 7-deaza-dX-CE Phosphoramidite
5'-Dimethoxytrityl-2'-deoxy-7-deazaxanthosine, 3'-[(2-cyanoethyl)-(N,N-diisopropyl)]-phosphoramidite |
Formula: C41H48N5O8P |
M.W.: 769.83 |
F.W.: 329.21 |
Diluent: Anhydrous Acetonitrile |
Coupling: Use 0.02M I2 oxidizer solution. 10 minute coupling time recommended. |
Deprotection: No changes needed from standard method recommended by synthesizer manufacturer. |
Storage: Freezer storage, -10 to -30°C, dry |
Stability in Solution: 2-3 days |
TURE/ACTIVITY RELATIONSHIP
The following products are used to investigate the effect on the activity of an oligonucleotide when key structural elements are changed. The 7-deaza purine monomers lack groups critical for hydrogen bonding. 7-Deaza-8-aza-A and 7-deaza-8-aza-G (PPG) monomers are isomers of A and G and have similar electron density. Their presence in oligos is slightly stabilizing relative to A and G. Unlike G, PPG does not lead to aggregation and G-rich oligos can be easily prepared and isolated. 5’-Fluorescein oligos with PPG at the 5’-terminus are much less quenched than the equivalent G oligos. As a purine analogue of Thymidine, 7-deaza-2’-deoxyXanthosine (7-deaza-dX) promises to have interesting effects on DNA structure of triplexes. 7-Deaza-dX also forms a non-standard base pair with a 2,4-diaminopyrimidine nucleoside analogue. Standard nucleobases have an unshared pair of electrons that project into the minor groove of duplex DNA. Enzymes that interact with DNA, polymerases, reverse transcriptases, restriction enzymes, etc., may use a hydrogen bond donating group to contact the hydrogen bond acceptor in the minor groove. 3-Deaza-2’-deoxyadenosine is very interesting in that it maintains the ability for regular Watson-Crick hydrogen bonding to T but is lacking the electron pair at the 3-position normally provided by N3.
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