Publication | Open Access
Solid phase synthesis of 5′-diphosphorylated oligoribonucleotides and their conversion to capped m<sup>7</sup>Gppp-oligoribonucleotides for uase as primers for influenza A virus RNA polymerase<i>in vitro</i>
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Citations
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References
1995
Year
Viral ReplicationSolid Phase MethodViral Polymerase StructureViral Polymerase MechanismMolecular BiologySolid Phase SynthesisGene DeliveryNucleic Acid ChemistryDifferent 5'-Diphosphorylated OligoribonucleotidesBiochemistryOligonucleotideDna ReplicationVirology5′-Diphosphorylated Oligoribonucleotides5'-Diphosphorylated OligoribonucleotidesNatural SciencesNucleic Acid BiochemistrySynthetic BiologyMedicine
We have synthesized four different 5'-diphosphorylated oligoribonucleotides, varying in length from 11 to 13 nucleotides by a new solid phase method. After deprotection and partial purification the 5'-diphosphorylated oligoribonucleotides could be converted to capped (m7Gppp) oligoribonucleotides using guanylyl transferase. Radiolabelled capped oligoribonucleotides acted as primers for the influenza A virus RNA polymerase in vitro. The solid phase method described here should also allow the addition of 5'-diphosphates to synthetic oligodeoxyribonucleotides and be capable automation.
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