Synthesis of Phosphorodiamidate Morpholino Oligonucleotides and Their Chimeras Using Phosphoramidite Chemistry.

Abstract

Phosphorodiamidate morpholinos (PMOs) and PMO-DNA chimeras have been prepared on DNA synthesizers using phosphoramidite chemistry. This was possible by first generating boranephosphoroamidate morpholino internucleotide linkages followed by oxidative substitution with four different amines: N,N-dimethylamine, N-methylamine, ammonia, and morpholine. When compared to a natural DNA duplex, the amino modified PMO was found to have a higher melting temperature with either complementary DNA or RNA, whereas the remaining PMO analogues having morpholino, dimethylamino, or N-methylamino phosphorodiamidate linkages had melting temperatures that were either comparable or reduced. Additionally the N,N-dimethylamino PMO-DNA chimeras were found to stimulate RNaseH1 activity. Treatment of HeLa cells with fluorescently labeled PMO chimeras demonstrated that these analogues were efficiently taken up by cells in the presence of a lipid transfection reagent. Because of the simplistic synthesis procedures, various PMO analogues are now readily available and should therefore open new pathways for research into the antisense, diagnostic, and nanotechnology oligonucleotide fields.