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Short interfering RNA guide strand modifiers from computational screening.


ABSTRACT: Short interfering RNAs (siRNAs) are promising drug candidates for a wide range of targets including those previously considered "undruggable". However, properties associated with the native RNA structure limit drug development, and chemical modifications are necessary. Here we describe the structure-guided discovery of functional modifications for the guide strand 5'-end using computational screening with the high-resolution structure of human Ago2, the key nuclease on the RNA interference pathway. Our results indicate the guide strand 5'-end nucleotide need not engage in Watson-Crick (W/C) H-bonding but must fit the general shape of the 5'-end binding site in MID/PIWI domains of hAgo2 for efficient knockdown. 1,2,3-Triazol-4-yl bases formed from the CuAAC reaction of azides and 1-ethynylribose, which is readily incorporated into RNA via the phosphoramidite, perform well at the guide strand 5'-end. In contrast, purine derivatives with modified Hoogsteen faces or N2 substituents are poor choices for 5'-end modifications. Finally, we identified a 1,2,3-triazol-4-yl base incapable of W/C H-bonding that performs well at guide strand position 12, where base pairing to target was expected to be important. This work expands the repertoire of functional nucleotide analogues for siRNAs.

SUBMITTER: Onizuka K 

PROVIDER: S-EPMC3884816 | biostudies-literature | 2013 Nov

REPOSITORIES: biostudies-literature

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Short interfering RNA guide strand modifiers from computational screening.

Onizuka Kazumitsu K   Harrison Jason G JG   Ball-Jones Alexi A AA   Ibarra-Soza José M JM   Zheng Yuxuan Y   Ly Diana D   Lam Walter W   Mac Stephanie S   Tantillo Dean J DJ   Beal Peter A PA  

Journal of the American Chemical Society 20131105 45


Short interfering RNAs (siRNAs) are promising drug candidates for a wide range of targets including those previously considered "undruggable". However, properties associated with the native RNA structure limit drug development, and chemical modifications are necessary. Here we describe the structure-guided discovery of functional modifications for the guide strand 5'-end using computational screening with the high-resolution structure of human Ago2, the key nuclease on the RNA interference pathw  ...[more]

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