2014
DOI: 10.1039/c4cc04719b
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Enzymatic combinatorial nucleoside deletion scanning mutagenesis of functional RNA

Abstract: We describe a general and simple method to identify catalytically and structurally important nucleotides in functional RNAs. Our approach is based on statistical replacement of each nucleoside with a non-nucleosidic spacer (C3 linker, D), followed by separation of active library variants and readout of interference effects by analysis of enzymatic primer extension reactions.Many examples of natural and artificial functional RNA motifs have been identified, including ribozymes, aptamers, riboswitches, small int… Show more

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Cited by 3 publications
(2 citation statements)
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“…Nucleoside phosphoramidites were obtained from ChemGenes (Wilmington, MA, USA) or Glen Research (Sterling, VA, USA). The propane-1,3-diol building block was prepared according to ( 45 , 46 ).…”
Section: Methodsmentioning
confidence: 99%
“…Nucleoside phosphoramidites were obtained from ChemGenes (Wilmington, MA, USA) or Glen Research (Sterling, VA, USA). The propane-1,3-diol building block was prepared according to ( 45 , 46 ).…”
Section: Methodsmentioning
confidence: 99%
“…By creating a set of strands in which each of the nucleosides are individually replaced by C3, it is possible to identify which monomers are critical to enzymatic activity of catalytic RNAs. 52 Spacers also play an important part in DNA nanotechnology. In an early example, mPh3 units were used to create corners in DNA polygons 53 which could then be used to assemble nanotubes by stacking them up.…”
Section: Non-nucleosidic Insertions In Nucleic Acidsmentioning
confidence: 99%