Genome-wide RNAi of C. elegans using the hypersensitive rrf-3 strain reveals novel gene functions.

Femke Simmer,Ewart Kuijk,Ronald H A Plasterk,Julie Ahringer,Andrew G Fraser,Celine Moorman,Alexander M Van Der Linden,Ravi S Kamath,Peter V.E Van Den Berghe

doi:10.1371/journal.pbio.0000012

Femke Simmer, Ewart Kuijk + Show 7 more

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https://doi.org/10.1371/journal.pbio.0000012

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RNA-mediated interference (RNAi) is a method to inhibit gene function by introduction of double-stranded RNA (dsRNA). Recently, an RNAi library was constructed that consists of bacterial clones expressing dsRNA, corresponding to nearly 90% of the 19,427 predicted genes of C. elegans. Feeding of this RNAi library to the standard wild-type laboratory strain Bristol N2 detected phenotypes for approximately 10% of the corresponding genes. To increase the number of genes for which a loss-of-function phenotype can be detected, we undertook a genome-wide RNAi screen using the rrf-3 mutant strain, which we found to be hypersensitive to RNAi. Feeding of the RNAi library to rrf-3 mutants resulted in additional loss-of-function phenotypes for 393 genes, increasing the number of genes with a phenotype by 23%. These additional phenotypes are distributed over different phenotypic classes. We also studied interexperimental variability in RNAi results and found persistent levels of false negatives. In addition, we used the RNAi phenotypes obtained with the genome-wide screens to systematically clone seven existing genetic mutants with visible phenotypes. The genome-wide RNAi screen using rrf-3 significantly increased the functional data on the C. elegans genome. The resulting dataset will be valuable in conjunction with other functional genomics approaches, as well as in other model organisms.

Highlights

RNA interference (RNAi) is targeted gene silencing via double-stranded RNA; a gene is inactivated by specific breakdown of the mRNA (Fire et al 1998; Montgomery et al 1998)
The RNAi data are a powerful tool to facilitate rapid cloning of the genes identified by genetic mutants and will provide important starting points for further studies of their function. With this genome-wide RNAi screen using the hypersensitive strain rrf-3, we have significantly increased the functional information on the C. elegans genome, and we confirmed many RNAi phenotypes observed previously
We have identified new RNAi phenotypes for a substantial number of genes, others will have been missed in our screen for the following reasons

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Introduction

RNA interference (RNAi) is targeted gene silencing via double-stranded RNA (dsRNA); a gene is inactivated by specific breakdown of the mRNA (Fire et al 1998; Montgomery et al 1998). Initial studies on RNAi used microinjection to deliver dsRNA (Fire et al 1998), but it was subsequently shown that dsRNA can be introduced very by feeding worms with bacteria that express dsRNA (Timmons and Fire 1998) Using this technique on a global scale, an RNAi feeding library consisting of 16,757 bacterial clones that correspond to 87% of the predicted genes in Caenorhabditis elegans was constructed (Fraser et al 2000; Kamath et al 2003).

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