Venubabu Kotikam, Andrey A Arzumanov, Michael J Gait, Vaijayanti A Kumar
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引用次数: 3
Abstract
Development of artificial nucleic acids for therapeutic applications warrants that the oligomers be endowed with high specificity, enzymatic stability and with no/reduced off-target effects. The balance between strength of the duplex with target RNA and enzyme stability is therefore the key factor for the designed modification. The chiral serinol derivative combines the attributes of amino- and methoxy- substitution when at 2'- position and at 3'- and 5'- ends, effectively balancing the duplex stability and resistance to hydrolytic enzymes. The biological effect seen is the remarkable improvement in splice correction by the steric blocking antisense oligonucleotide with just 4 modified units, i.e ~20% substitution with R-aminomethoxypropyloxy (R-AMP)-thymidine within the 2'-OMe 18mer sequence.
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