Flow cytometry-based functional selection of RNA interference triggers for efficient epi-allelic analysis of therapeutic targets
Micklem, David Robert; Blø, Magnus; Bergström, Petra; Hodneland, Erlend; Tiron, Crina Elena; Høiby, Torill; Gjerdrum, Christine; Hammarsten, Ola; Lorens, James B.
Peer reviewed, Journal article
Published version
Permanent lenke
https://hdl.handle.net/1956/8465Utgivelsesdato
2014-06-21Metadata
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Originalversjon
https://doi.org/10.1186/1472-6750-14-57Sammendrag
Background: The dose-response relationship is a fundamental pharmacological parameter necessary to determine therapeutic thresholds. Epi-allelic hypomorphic analysis using RNA interference (RNAi) can similarly correlate target gene dosage with cellular phenotypes. This however requires a set of RNAi triggers empirically determined to attenuate target gene expression to different levels. Results: In order to improve our ability to incorporate epi-allelic analysis into target validation studies, we developed a novel flow cytometry-based functional screening approach (CellSelectRNAi) to achieve unbiased selection of shRNAs from high-coverage libraries that knockdown target gene expression to predetermined levels. Employing a Gaussian probability model we calculated that knockdown efficiency is inferred from shRNA sequence frequency profiles derived from sorted hypomorphic cell populations. We used this approach to generate a hypomorphic epi-allelic cell series of shRNAs to reveal a functional threshold for the tumor suppressor p53 in normal and transformed cells. Conclusion: The unbiased CellSelectRNAi flow cytometry-based functional screening approach readily provides an epi-allelic series of shRNAs for graded reduction of target gene expression and improved phenotypic validation.
Utgiver
BioMed CentralTidsskrift
BMC BiotechnologyOpphavsrett
David R Micklem et al.; licensee BioMed Central Ltd.Copyright 2014 Micklem et al.; licensee BioMed Central Ltd.