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Internet-scale discovery of RNA bioengineering rules

$455,212R01FY2014GMNIH

Stanford University, Stanford CA

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Abstract

DESCRIPTION (provided by applicant): Recent discoveries of biologically fundamental non-coding RNAs are inspiring novel antibacterial, antitumor, and antiviral therapies that might disable or manipulate the molecules involved. However, in silico folding models cannot yet confidently predict RNA conformations in vitro, slowing the development of these potentially life-saving efforts. To develop the next-generation of robust and rigorously tested RNA bioengineering rules, we are exploring an unconventional strategy: last year, we released a citizen science project enabling non-experts to develop and test folding hypotheses in internet-scale RNA design competitions that are rigorously scored through wet-lab feedback. Launched in early 2011, the 25,000-player EteRNA project already outperforms existing previous methods for designing novel RNA structures which fold properly in vitro. The critical next stage is to sustain and formalize the RNA nanoengineering insights preserved within the EteRNA community. We propose steps to consolidate the community's experimentally validated human computation into a suite of automated design algorithms (EteRNAbot) usable by the entire RNA nanoenginering community. Beyond compiling such cases, we will crowd-source the rigorous search and resolution of in silico and in vitro design failures with thousands of new experiments. Finally, we will deploy the EteRNA- 3D interface for both expert and crowd-sourced three-dimensional design, leveraging a growing database of 3D building blocks and the ROSETTA RNA folding/design algorithms. We will evaluate success in each aim via synthesis and single-nucleotide- resolution chemical mapping of novel designs through our high-throughput wet-lab pipeline. More generally, we will evaluate success by assessing the extent of utilization and citation of the automated design tools; the extent of mining and citation of the publically available RNA Mapping Database generated for the project; and the adoption of the EteRNA paradigm for Internet-scale scientific discovery in biomedical computation problems beyond nucleic acid design.

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